CN209990337U - Energy-saving bridge-cut-off aluminum alloy casement window - Google Patents
Energy-saving bridge-cut-off aluminum alloy casement window Download PDFInfo
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- CN209990337U CN209990337U CN201822071028.0U CN201822071028U CN209990337U CN 209990337 U CN209990337 U CN 209990337U CN 201822071028 U CN201822071028 U CN 201822071028U CN 209990337 U CN209990337 U CN 209990337U
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- aluminum alloy
- window frame
- casement
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Abstract
The utility model discloses an energy-conserving bridge cut-off aluminum alloy flat-open window, characterized by include casement, window frame, window muntin, angle sign indicating number, layering, high density rubber and plastic heat preservation cotton, density board, heated board, foam strip, joint strip, duckbilled adhesive tape, section glue, cavity glass, glass gasket, handle, hinge, cushion and sealed glue. The utility model discloses bulk strength is high, and the whole temperature conductivity of bridge cut-off aluminum alloy ex-trusions is low, and is whole energy-conserving effectual, is fit for using widely on the higher building of various energy conservation nature requirements.
Description
Technical Field
The invention relates to the field of bridge-cutoff aluminum alloy casement windows, in particular to an energy-saving bridge-cutoff aluminum alloy casement window.
Background
Doors and windows serve as important components of building enclosures and perform an important task of energy conservation. The ratio of the area of the door and the window to the total area of the house building is about one seventh, and the energy consumption of the door and the window occupies more than one half of the energy consumption of the building. The reasonable application of the door and window has great significance for the popularization of green energy-saving buildings. In the process of energetically popularizing energy conservation and emission reduction in China, people are keen in selecting energy-saving and environment-friendly windows in the aspect of selecting windows of buildings. However, the conventional bridge-cutoff aluminum alloy type window has the following problems in practical use: 1, no heat insulation material is filled in the cavity inside the common window broken bridge aluminum alloy section bar, so that the indoor and outdoor mutual temperature conduction is increased, and the energy-saving effect is poor; 2, the hollow glass is directly contacted with the metal part of the bridge-cut-off aluminum alloy section bar, so that indoor and outdoor temperature conduction is increased, and the energy-saving effect of the window is reduced; 3, the cross-section of concatenation department does not have the coating section glue before the window is assembled, and concatenation gap department has not the coating section glue after the concatenation, uses water and dust to get into the bridge cut-off aluminum alloy ex-trusions from the concatenation easily inside, reduces the energy-conserving performance of window. Aiming at the problems, the invention provides an energy-saving bridge-cutoff aluminum alloy casement window.
Disclosure of Invention
The invention provides an energy-saving bridge-cutoff aluminum alloy casement window which can solve the problems in the background technology.
In order to achieve the purpose, the technical scheme adopted by the invention is as follows:
an energy-saving broken bridge aluminum alloy casement window comprises a window sash, a window frame, a window mullion, an angle code, a pressing bar, high-density rubber and plastic heat-insulation cotton, a density plate, a heat-insulation plate, a foam bar, a sealing rubber strip, a duckbill rubber strip, section rubber, hollow glass, a glass gasket, a handle, a hinge, a rubber gasket and sealant, wherein the angle code is installed at the splicing part of four corners of the window frame, the window mullion is installed at the middle position of the window frame, the window sash is installed between the window mullion and one side of the window frame in a region, the hollow glass is installed inside the window sash, the hollow glass is installed inside the window mullion and the other side of the window frame in a region, the window sash, the window frame and the window mullion are made of broken bridge aluminum alloy sections, one side of the broken bridge aluminum alloy sections is provided with a convex wing plate, the indoor and outdoor two sides of the broken bridge aluminum alloy, the bridge-cut-off aluminum alloy section bar is characterized in that a glass gasket is arranged in a contact area between the inner side of a window sash and the periphery of hollow glass, the glass gasket is arranged in the contact area between the inner side of the window sash and the periphery of the hollow glass, a density plate is arranged in the contact area between the outer side of the glass gasket and the inner side of the window sash, the density plate is arranged on the outer side of the glass gasket and the inner side of the window sash, foam strips are arranged on two sides of the hollow glass, a heat insulation plate is arranged on the outer side of the foam strips, the heat insulation plate is arranged on the inner side of wing plates of the bridge-cut-off aluminum alloy section bar of the window sash, the window frame and the window sash, a pressing strip is arranged on the outer side of the heat insulation plate, one side of the pressing strip is connected, one side of joint strip is installed at casement, window muntin, window frame layering inboard, joint strip's opposite side and cavity glass in close contact with, the duckbilled adhesive tape is installed inboardly between the window muntin window frame, with casement contact area all around in, duckbilled adhesive tape one side is installed inboardly between the window frame muntin, duckbilled adhesive tape opposite side and casement contact all around, the duckbilled adhesive tape is opening formula joint strip, and the opening is indoor towards after the duckbilled adhesive tape installation, the handle is installed in one side of casement and window muntin contact, has the cushion between handle and the casement, the hinge is installed in the casement and the window frame contact area of handle opposite side, and joint strip is installed at the position that corresponds the casement to the part that the hinge was fixed on the window frame, and joint strip is installed at the position that corresponds the.
Preferably, sealing rubber strips are arranged at the contact positions of the inner side and the outer side of the window sash and the inner side and the outer side of the window frame mullion.
Preferably, the hollow glass is made by compounding two pieces of Low-E glass, a warm edge strip, butyl rubber and argon, the warm edge strip is arranged around the outer side of the two pieces of Low-E glass, the warm edge strip and the two pieces of Low-E glass are connected into a whole in a sealing mode through the butyl rubber, the butyl rubber is 3-5 mm higher than the edges of the two pieces of Low-E glass, a hollow area is arranged between the warm edge strip and the two pieces of Low-E glass, the hollow area is filled with the argon, and a single silver film layer or a double silver film layer is plated on the surface of the Low-E glass.
Preferably, the section glue is coated on the splicing section of the window frame splicing part, the window sash splicing part, the window mullion and the window frame splicing part before splicing, and the sealant is coated on the splicing gap after splicing.
Preferably, the sealing rubber strip, the duckbilled rubber strip and the rubber pad are made of ethylene propylene diene monomer, the heat insulation plate is made of polyurethane material, the foam strip is made of polystyrene material, the connecting bridge is made of polyamide fiber material, and the corner brace is made of aluminum alloy material.
Compared with the prior art, the invention has the following beneficial effects:
the energy-saving bridge-cut-off aluminum alloy casement window is manufactured by optimally designing and combining a window sash, a window frame, a window mullion, corner connectors, pressing strips, high-density rubber-plastic heat-insulation cotton, density plates, heat-insulation plates, foam strips, sealing rubber strips, duckbilled rubber strips, section rubber, hollow glass, glass gaskets, handles, hinges, rubber pads and sealant. The problem that the common broken bridge aluminum alloy window has the following problems in the actual use process is solved: 1, no heat insulation material is filled in the cavity inside the common window broken bridge aluminum alloy section bar, so that the mutual conduction of indoor and outdoor temperatures is increased, and the energy-saving effect is poor; indoor and outdoor temperature conduction is increased, and the energy-saving effect of the window is reduced; 3, the cross-section of concatenation department does not have the coating section glue before the window is assembled, and concatenation gap department has not the coating section glue after the concatenation, uses water and dust to get into the bridge cut-off aluminum alloy ex-trusions from the concatenation easily inside, reduces the energy-conserving performance of window. Meanwhile, the high-density rubber-plastic heat-preservation cotton is filled in the cavity of the bridge-cut-off aluminum alloy section to increase the overall energy-saving effect of the window and avoid mutual conduction of indoor and outdoor temperatures; the density plate, the heat insulation plate, the foam strip, the sealing rubber strip and the glass gasket are arranged in the area between the hollow glass and the window sash, the window frame and the window mullion, so that the hollow glass is prevented from being in direct contact with the metal parts of the broken bridge aluminum alloy sections of the window sash, the window frame and the window mullion, the whole sealing effect is good, and the whole energy-saving effect of the window is improved; the splicing sections of the splicing positions of the window frame, the splicing positions of the window sashes, the splicing positions of the window mullions and the window frames, the splicing positions of the pressing strips and the window sashes, the window frames and the window mullions before splicing are coated with section glue, and the splicing gaps after splicing are coated with sealant, so that water and dust are prevented from easily entering the bridge-cut aluminum alloy section from the splicing positions, and the energy-saving performance of the window is reduced; the hollow glass is prepared by compounding two pieces of Low-E glass, a warm edge strip, butyl rubber and argon, a hollow area is arranged between the warm edge strip and the two pieces of Low-E glass, the argon is filled in the hollow area, the argon can effectively reduce the heat transfer coefficient of the hollow glass, the surface of the Low-E glass is plated with a single silver film layer, and the single silver film layer has a good heat insulation effect and good light transmittance.
The invention has high integral strength, low integral temperature conductivity of the bridge-cut-off aluminum alloy section and good integral energy-saving effect, and is suitable for being popularized and used on various buildings with higher energy-saving requirements.
Drawings
FIG. 1 is an overall schematic view of the present invention;
FIG. 2 is a cross-sectional view of the invention taken along line A-A-A;
FIG. 3 is a cross-sectional view of the invention B-B-B;
FIG. 4 is a cross-sectional view of the present invention C-C.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
The present invention will be described in further detail with reference to examples and specific embodiments.
An energy-saving broken bridge aluminum alloy casement window comprises a window sash 4, a window frame 1, a window mullion 2, an angle joint 3, a pressing bar 12, high-density rubber-plastic heat-insulating cotton 11, a density plate 8, a heat-insulating plate 9, a foam strip 10, a sealing rubber strip 15, a duckbilled rubber strip 5, section rubber, hollow glass 6, a glass gasket 7, a handle 14, a hinge 16, a rubber gasket 13 and sealant, wherein the angle joint 3 is installed at the four-corner splicing part of the window frame 1, the window mullion 2 is installed at the middle position of the window frame 1, the window sash 4 is installed between the window mullion 2 and one side of the window frame 1 in a region, the hollow glass 6 is installed at the inner side of the window sash 4, the hollow glass 6 is installed between the window mullion 2 and the other side of the window frame 1, the window mullion 2 of the window sash 4 is made of a broken bridge aluminum alloy profile, a convex wing plate 102 is arranged at one side of the broken bridge, there is the cavity bridge cut-off aluminium alloy ex-trusions inside, characterized by high density rubber and plastic insulation cotton 11 is filled, inside the bridge cut-off aluminium alloy ex-trusions cavity, glass gasket 7 is installed in casement 4 inboard and cavity glass 7 contact area all around, and glass gasket 7 is installed inboardly between window muntin 2 window frame 1, and in cavity glass 6 contact area all around, density board 8 is installed in the contact area of glass gasket 7 outside and casement 4 inboard, and density board 8 is installed in the inboard contact area between the glass gasket 7 outside and window muntin 2 window frame 1, foam strip 10 is installed in cavity glass 6 both sides, heated board 9 is installed in the foam strip 10 outside, and heated board 9 is installed in casement 4 window frame 1 window muntin 2 bridge cut-off aluminium alloy ex-trusions pterygoid 102 inboard, layering 12 is installed in heated board 9 outside, and layering 12 one side is connected with casement 4 window frame 1 window muntin 2 bridge, the interior of the batten 12 is filled with high-density rubber-plastic heat-preservation cotton 11, the sealing rubber strip 15 is installed on the outer side of a contact area between a foam strip 10 of the heat-preservation plate 9 and hollow glass 6, one side of the sealing rubber strip 15 is installed on the inner side of a window mullion 2 of a window frame 1 of a window sash 4, the other side of the sealing rubber strip 15 is in close contact with the hollow glass 6, the duckbilled rubber strip 5 is installed on the inner side between the window mullion 2 of the window frame 1 and in a peripheral contact area with the window sash 4, one side of the duckbilled rubber strip 5 is installed on the inner side between the window mullion 2 of the window frame 1, the other side of the duckbilled rubber strip 5 is in peripheral contact with the window sash 4, the duckbilled rubber strip 5 is an open type sealing rubber strip, the opening of the duckbilled rubber strip 5 faces indoors after being installed, the handle 14 is installed, the portion of the hinge 16 fixed to the window frame 1 is provided with a sealing rubber strip 15 at a position corresponding to the window sash 4, and the portion of the hinge 16 fixed to the window sash 4 is provided with a sealing rubber strip 15 at a position corresponding to the window frame 1.
Preferably, sealing rubber strips 15 are arranged at the contact positions of the inner side and the outer side of the window sash 4 and the inner side and the outer side of the window mullion 2 of the window frame 1.
Preferably, the hollow glass 6 is made by compounding two pieces of Low-E glass, a warm edge strip, butyl rubber and argon, the warm edge strip is arranged around the outer side of the two pieces of Low-E glass, the warm edge strip and the two pieces of Low-E glass are connected into a whole in a sealing mode through the butyl rubber, the butyl rubber is 3-5 mm higher than the edges of the two pieces of Low-E glass, a hollow area is arranged between the warm edge strip and the two pieces of Low-E glass, the hollow area is filled with the argon, and a single silver film layer or a double silver film layer is plated on the surface of the Low-E glass.
Preferably, the splicing section is coated with the section glue before splicing the splicing part of the window frame 1, the splicing part of the window sash 4 and the splicing part of the window mullion 2 and the window frame 1, and the splicing gap is coated with the sealant after splicing.
Preferably, the sealing rubber strip 15, the duckbill rubber strip 5 and the rubber pad 13 are made of ethylene propylene diene monomer, the heat insulation plate 9 is made of polyurethane material, the foam strip 10 is made of polystyrene material, the connecting bridge 101 is made of polyamide fiber material, and the corner brace 3 is made of aluminum alloy material.
Meanwhile, the high-density rubber-plastic heat-preservation cotton 11 is filled in the cavity of the bridge-cut-off aluminum alloy section to increase the overall energy-saving effect of the window and avoid mutual conduction of indoor and outdoor temperatures; the density plate 8, the heat insulation plate 9, the foam strip 10, the sealing rubber strip 15 and the glass gasket 7 are arranged in the area between the hollow glass 6 and the window frame 1 and window mullion 2 of the window sash 4, so that the hollow glass 6 is prevented from being in direct contact with the metal part of the bridge-cut aluminum alloy section bar of the window frame 1 and window mullion 2 of the window sash 4, the whole sealing effect is good, and the whole energy-saving effect of the window is improved; the splicing section of the splicing part of the window frame 1, the splicing part of the window sash 4, the splicing part of the window mullion 2 and the window frame 1, and the splicing section of the batten 12 and the splicing part of the window mullion 2 of the window sash 4 before splicing are coated with section glue, and the splicing gap after splicing is coated with sealant, so that water and dust are prevented from easily entering the bridge-cut-off aluminum alloy section from the splicing part, and the energy-saving performance of the window is reduced; the hollow glass 6 is prepared by compounding two pieces of Low-E glass, a warm edge strip, butyl rubber and argon, a hollow area is arranged between the warm edge strip and the two pieces of Low-E glass, the argon is filled in the hollow area, the argon can effectively reduce the heat transfer coefficient of the hollow glass, a single silver film layer is plated on the surface of the Low-E glass, and the single silver film layer has a good heat insulation effect and good light transmittance.
The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various changes and modifications can be made without departing from the inventive concept of the present invention, and these changes and modifications are all within the scope of the present invention.
Claims (5)
1. An energy-saving broken bridge aluminum alloy casement window comprises a window sash, a window frame, a window mullion, an angle code, a pressing bar, high-density rubber and plastic heat-insulation cotton, a density plate, a heat-insulation plate, a foam bar, a sealing rubber strip, a duckbill rubber strip, section rubber, hollow glass, a glass gasket, a handle, a hinge, a rubber gasket and sealant, wherein the angle code is installed at the splicing part of four corners of the window frame, the window mullion is installed at the middle position of the window frame, the window sash is installed between the window mullion and one side of the window frame in a region, the hollow glass is installed inside the window sash, the hollow glass is installed inside the window mullion and the other side of the window frame in a region, the window sash, the window frame and the window mullion are made of broken bridge aluminum alloy sections, one side of the broken bridge aluminum alloy sections is provided with a convex wing plate, the indoor and outdoor two sides of the broken bridge aluminum alloy, the bridge-cut-off aluminum alloy section bar is characterized in that a glass gasket is arranged in a contact area between the inner side of a window sash and the periphery of hollow glass, the glass gasket is arranged in the contact area between the inner side of a window mullion and the periphery of the hollow glass, a density plate is arranged in the contact area between the outer side of the glass gasket and the inner side of the window mullion, foam strips are arranged on two sides of the hollow glass, a heat insulation plate is arranged on the outer side of the foam strips, the heat insulation plate is arranged on the inner side of wing plates of the bridge-cut-off aluminum alloy section bar of the window sash, the window frame and the window mullion, a pressing strip is arranged on the outer side of the heat insulation plate, one side of the pressing strip is connected with the bridge-cut-off aluminum alloy section bar of the window sash, the window, one side of joint strip is installed at casement, window muntin, window frame layering inboard, joint strip's opposite side and cavity glass in close contact with, the duckbilled adhesive tape is installed inboardly between the window muntin window frame, with casement contact area all around in, duckbilled adhesive tape one side is installed inboardly between the window frame muntin, duckbilled adhesive tape opposite side and casement contact all around, the duckbilled adhesive tape is opening formula joint strip, and the opening is indoor towards after the duckbilled adhesive tape installation, the handle is installed in one side of casement and window muntin contact, has the cushion between handle and the casement, the hinge is installed in the casement and the window frame contact area of handle opposite side, and joint strip is installed at the position that corresponds the casement to the part that the hinge was fixed on the window frame, and joint strip is installed at the position that corresponds the.
2. The energy-saving bridge-cut-off aluminum alloy casement window according to claim 1, wherein sealing rubber strips are arranged on the inner side and the outer side of the window sash and in contact with the inner side and the outer side of a mullion of the window frame.
3. The energy-saving bridge-cutoff aluminum alloy casement window according to claim 1, wherein the hollow glass is made by compounding two pieces of Low-E glass, a warm edge strip, butyl rubber and argon, the warm edge strip is arranged between the two pieces of Low-E glass and close to the outer side, the warm edge strip and the two pieces of Low-E glass are connected into a whole by the butyl rubber in a sealing manner, the butyl rubber is 3-5 mm higher than the edges of the two pieces of Low-E glass, a hollow area is arranged between the warm edge strip and the two pieces of Low-E glass, the hollow area is filled with the argon, and a single silver film layer or a double silver film layer is plated on the surface of the Low-E glass.
4. The energy-saving bridge-cut-off aluminum alloy casement window according to claim 1, wherein the splicing sections of the window frame splicing part, the window sash splicing part, the window mullion and the window frame splicing part before splicing are coated with section glue, and the splicing gaps after splicing are coated with sealant.
5. The energy-saving bridge-cut-off aluminum alloy casement window according to claim 1, wherein the sealing rubber strips, the duckbill rubber and the strip rubber pads are made of ethylene propylene diene monomer rubber, the heat insulation plate is made of polyurethane material, the foam strips are made of polystyrene material, the connecting bridges are made of polyamide fiber material, and the corner connectors are made of aluminum alloy material.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201822071028.0U CN209990337U (en) | 2018-12-11 | 2018-12-11 | Energy-saving bridge-cut-off aluminum alloy casement window |
Applications Claiming Priority (1)
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CN201822071028.0U CN209990337U (en) | 2018-12-11 | 2018-12-11 | Energy-saving bridge-cut-off aluminum alloy casement window |
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CN209990337U true CN209990337U (en) | 2020-01-24 |
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CN201822071028.0U Expired - Fee Related CN209990337U (en) | 2018-12-11 | 2018-12-11 | Energy-saving bridge-cut-off aluminum alloy casement window |
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CN (1) | CN209990337U (en) |
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2018
- 2018-12-11 CN CN201822071028.0U patent/CN209990337U/en not_active Expired - Fee Related
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CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20200124 Termination date: 20201211 |