CN216714197U - Energy-saving aluminum alloy outward-opening window - Google Patents
Energy-saving aluminum alloy outward-opening window Download PDFInfo
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- CN216714197U CN216714197U CN202122853655.1U CN202122853655U CN216714197U CN 216714197 U CN216714197 U CN 216714197U CN 202122853655 U CN202122853655 U CN 202122853655U CN 216714197 U CN216714197 U CN 216714197U
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- heat insulation
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Abstract
An energy-saving aluminum alloy outward-opening window comprises a window frame, window sashes and double hollow glass, wherein the window frame comprises an outer frame sectional material and an inner frame sectional material, heat insulation strips are arranged between the inner frame sectional material and the outer frame sectional material at intervals, heat insulation and sound insulation cotton is filled between the heat insulation strips, the heat insulation strips in the frame are inserted and matched with middle adhesive tapes, and two ends of each middle adhesive tape are inserted and matched with clamping grooves corresponding to the outer frame sectional material and the inner frame sectional material; the window sash comprises an inner sash profile and an outer sash profile, wherein an outer multi-cavity heat insulation strip and an inner heat insulation strip are arranged between the inner sash profile and the outer sash profile, heat preservation and sound insulation cotton is filled between the multi-cavity heat insulation strip and the inner heat insulation strip, heat preservation and sound insulation cotton is arranged between the inner heat insulation strip and the double hollow glass, a pressing strip and an inner glass adhesive tape are arranged between the inner sash profile and the double hollow glass, an outer glass adhesive tape is arranged between one end of the outer sash profile and the double hollow glass, and an outer side sealing adhesive tape is arranged between the other end of the outer sash profile and the outer frame profile; the cavity between the window frame and the window sash is divided into an airtight cavity and a watertight cavity by the middle adhesive tape and the multi-cavity heat insulation tape.
Description
Technical Field
The utility model relates to an energy-saving aluminum alloy outward-opening window.
Background
The common aluminum alloy outward-opening window for doors and windows adopts two seals, the heat-insulating and sound-insulating material is not filled in the cavity of the window frame and the window sash section bar, and the common hollow glass is used, so that the structure is simple, and the air tightness, the water tightness, the heat-insulating property and the sound-insulating property are poor.
SUMMERY OF THE UTILITY MODEL
The utility model aims to solve the problems and provide the energy-saving aluminum alloy outward-opening window, which effectively improves the heat insulation performance and the sound insulation performance of the outward-opening window.
In order to solve the technical problems, the utility model adopts the following technical scheme:
an energy-saving aluminum alloy outward-opening window comprises a window frame, window sashes and double hollow glass, wherein the window frame comprises an outer frame sectional material and an inner frame sectional material, two spaced outer heat insulation strips and two spaced inner heat insulation strips are arranged between the inner frame sectional material and the outer frame sectional material, first heat insulation and sound insulation cotton is filled between the inner heat insulation strips and the outer heat insulation strips, the inner heat insulation strips in the frame comprise a body, adhesive tape bulges are arranged on the inner wall of the body at intervals, slots are formed between the adjacent bulges, an intermediate adhesive tape is inserted and matched in the slots, and two ends of the intermediate adhesive tape are inserted and matched with slots corresponding to the outer frame sectional material and the inner frame sectional material;
the window sash comprises an inner sash profile and an outer sash profile, wherein an outer multi-cavity heat insulation strip and an inner heat insulation strip are arranged between the inner sash profile and the outer sash profile, second heat insulation soundproof cotton is filled between the outer multi-cavity heat insulation strip and the inner heat insulation strip, third heat insulation soundproof cotton is arranged between the inner heat insulation strip and the end surfaces of the double hollow glass, a pressing strip and an inner glass adhesive tape are arranged between the inner sash profile and the inner walls of the double hollow glass, an outer glass adhesive tape is arranged between one end of the outer sash profile and the double hollow glass, and an outer sealing adhesive tape is arranged between the other end of the outer sash profile and the outer frame profile;
the middle adhesive tape and the out-sash multi-cavity heat insulation strip divide a cavity between the window frame and the window sash into an airtight cavity and a watertight cavity.
The outer frame sectional material comprises an outer frame, and three clamping grooves a are formed in a plate body a of the outer frame, which is opposite to the inner frame sectional material, and are respectively used for inserting and matching the outer ends of the outer heat insulation rubber strip, the inner heat insulation rubber strip and the middle rubber strip; the inner frame section comprises an inner frame, three clamping grooves A corresponding to the clamping grooves a are formed in a plate body A of the inner frame opposite to the outer frame section and used for inserting and matching the inner ends of the outer heat insulation rubber strip, the inner heat insulation rubber strip and the middle rubber strip respectively, and a baffle plate C is arranged on a plate body B of the inner frame opposite to the plate body A in an extending mode.
The outer fan section comprises a fan outer frame, two ends of an outer side plate of the fan outer frame are respectively provided with a glass outer baffle and an outer window frame baffle in an extending manner, an outer glass adhesive tape is arranged between the glass outer baffle and the outer wall of the double-hollow glass, an outer sealing adhesive tape is arranged between the fan outer frame baffle and the outer frame section, and two slots C are formed in an inner side plate of the fan outer frame and are respectively used for inserting and matching outer ends of a multi-cavity heat insulation strip outside the fan and an inner heat insulation adhesive tape inside the fan; the inner sash section comprises a sash inner frame, two slots D corresponding to the slots C are formed in the outer side plate of the sash inner frame, the two slots D are respectively used for inserting and matching the outer multi-cavity heat insulation strip and the inner end of the inner heat insulation rubber strip, an L plate body is arranged on the inner side of the inner side plate of the sash inner frame, the L plate body is aligned with a baffle C at intervals, and an inner sealing rubber strip is arranged between the baffle C and the inner side plate of the sash inner frame; a T-shaped positioning groove is formed between the free end of the L-shaped plate body and the outer side plate of the fan inner frame, one side end of a pressing strip is inserted into the T-shaped positioning groove, and the other side end of the pressing strip is connected with an inner adhesive tape of the double-hollow glass inner wall mounting glass.
The middle adhesive tape is integrally formed and comprises an ethylene-propylene-diene monomer foaming adhesive tape inserted into the inner heat insulation strip of the frame and an ethylene-propylene-diene monomer dense adhesive tape corresponding to the outer multi-cavity heat insulation strip.
The ethylene-propylene-diene monomer foaming rubber strip comprises a base body, wherein a plurality of slots corresponding to the heat-insulation rubber strips in the frame and card-inserting heads corresponding to the inner side clamping grooves a and A of the inner frame section bar and the outer frame section bar are arranged on the outer wall of the base body, and supporting legs are arranged on the inner wall of the base body; the ethylene-propylene-diene monomer dense rubber strip comprises a bottom plate, wherein a top head is arranged at the inner end of the bottom plate, the bottom plate is in compression joint with the supporting leg, and the top head corresponds to the inner end of the multi-cavity heat insulation strip outside the fan.
The structure of the frame outer heat insulation rubber strip is the same as the structure size of the fan inner heat insulation rubber strip.
The layering includes first plate body and second plate body, and this first plate body and second plate body are the L form, and the free end of this first plate body is rolled over towards T type constant head tank side and is prolonged there is the card insertion portion, and the wall of this card insertion portion at relative T type constant head tank is equipped with card slot, and this card slot supplies the opening inner panel of T type constant head tank to insert and establishes, and the free end of this card insertion portion is arc draw-in groove, installs the foaming adhesive tape in this arc draw-in groove, and this card slot's opening inner panel supports the top on the foaming adhesive tape, and the free end of this second plate body is rolled over and is prolonged there is the third plate body, installs between this third plate body and the two cavity glass adhesive tape in the glass.
The first plate body gradually becomes thicker towards the inner section bar direction of the sash.
The utility model has the beneficial effects that: according to the utility model, the frame adhesive tape, the sash adhesive tape and the middle adhesive tape are adopted to divide a cavity between the window frame and the window sash into the airtight cavity and the watertight cavity, and drainage is performed by utilizing an isobaric principle, so that the airtight performance and the watertight performance of the outward opening window are effectively improved; meanwhile, the window frame and the window sash adopt large-section and multi-cavity heat insulation strips, heat insulation and sound insulation cotton is filled in the cavity of the section bar, three-glass two-cavity Low-e double-cavity glass is adopted, heat insulation and sound insulation cotton is also filled between the glass and the window sash section bar, the upper part of the middle adhesive tape is foamed ethylene propylene diene monomer rubber, and the lower part of the middle adhesive tape is dense ethylene propylene diene monomer rubber, so that the heat insulation performance and the sound insulation performance of the outward opening window are effectively improved.
Drawings
In order to more clearly explain the embodiments of the present invention, the embodiments will be described below with reference to the accompanying drawings.
FIG. 1 is a schematic view of the outward-looking structure of the outward-opening window of the present invention
Fig. 2 is a schematic view of the structure in the direction of a-a in fig. 1.
Fig. 3 is a schematic view of the structure in the direction B-B in fig. 1.
Fig. 4 is a schematic structural view of the window frame.
Fig. 5 is a structural view of a window sash.
FIG. 6 is a schematic view of the structure of the intermediate strip.
Fig. 7 is a schematic cross-sectional view of a molding.
Detailed Description
The following description is given by way of example only, and is not intended to limit the scope of the present invention.
As shown in fig. 1 to 7, the energy-saving aluminum alloy out-opening window of the present invention comprises a window frame 1, a window sash 2 and a pair of hollow glasses 3, wherein the window frame is hinged to the top of the window sash and the bottom thereof via friction hinges 4;
as shown in fig. 4, the window frame 1 includes an outer frame profile 11 and an inner frame profile 12, two spaced outer frame thermal insulation adhesive tapes 41 and two spaced inner frame thermal insulation adhesive tapes 42 are installed between the inner frame profile 12 and the outer frame profile 12, a first thermal insulation soundproof cotton 43 is filled between the inner frame thermal insulation adhesive tapes and the outer frame thermal insulation adhesive tapes, the inner frame thermal insulation adhesive tapes 42 include an adhesive tape body, adhesive tape protrusions 421 are arranged on the inner wall of the adhesive tape body at intervals, slots are formed between adjacent protrusions, a middle adhesive tape 44 is inserted into the slots, and the inner end and the outer end of the middle adhesive tape 44 are inserted into corresponding slots of the outer frame profile 11 and the inner frame profile 12;
the outer frame sectional material 11 comprises an outer frame, and three clamping grooves a are formed in a plate body a111 of the outer frame, which is opposite to the inner frame sectional material 12, and are respectively used for inserting and matching the outer ends of the outer frame heat insulation rubber strip 41, the inner frame heat insulation rubber strip 42 and the middle rubber strip 44;
the inner frame section bar 12 comprises an inner frame, three clamping grooves A corresponding to the clamping grooves a are arranged on a plate body A121 of the inner frame opposite to the outer frame section bar, and the inner ends of the outer heat insulation rubber strip, the inner heat insulation rubber strip and the middle rubber strip 44 are respectively inserted and matched; a baffle C123 is extended from the plate B122 of the inner frame opposite to the plate a 121.
As shown in fig. 5, the window sash 2 includes an inner sash profile 21 and an outer sash profile 22, an outer multi-cavity thermal insulation strip 51 and an inner sash insulation strip 52 are installed between the inner sash profile 21 and the outer sash profile 22, second thermal insulation soundproof cotton 53 is filled between the outer multi-cavity thermal insulation strip 51 and the inner sash insulation strip 42, and third thermal insulation soundproof cotton 54 is installed between the inner sash insulation strip 52 and the end surface of the double hollow glass 3;
the outer sash section bar 22 comprises a sash frame, two ends of an outer side plate 221 of the sash frame are respectively provided with an outer glass baffle 222 and an outer window frame baffle 223 in an extending manner, an outer glass adhesive tape 61 is arranged between the outer glass baffle 222 and the outer wall of the double-hollow glass 3, an outer side sealing adhesive tape 62 is arranged between the outer window frame baffle 223 and the outer sash frame section bar 11, and two slots C are arranged on an inner side plate 224 of the sash frame and are respectively used for inserting and matching the outer ends of the outer multi-cavity heat insulation strip 51 and the inner heat insulation strip 52 of the sash frame;
the inner sash section bar 21 comprises a sash inner frame, two slots D corresponding to the slots C are formed in the outer side plate 211 of the sash inner frame, the inner ends of the outer multi-cavity heat insulation strip 51 and the inner heat insulation strip 52 in the sash are respectively inserted and matched in the two slots D, an L plate body 213 is arranged on the inner side of the inner side plate 212 of the sash inner frame, the L plate body 213 is aligned with the baffle C123 at intervals, and an inner sealing rubber strip 63 is arranged between the baffle C123 and the inner side plate of the sash inner frame.
A T-shaped positioning groove 214 is arranged between the free end of the L-shaped plate body 213 and the outer side plate 211 of the fan inner frame, one side end of the pressing strip 7 is inserted and matched with the T-shaped positioning groove 214, and an in-glass adhesive tape 81 is arranged between the other side end of the pressing strip 7 and the inner wall of the double-hollow glass.
The intermediate strip and the extra-sash multi-chamber insulating strip divide the cavity between the window frame and the window sash into an airtight chamber 10 and a watertight chamber 20.
As shown in fig. 6, the middle adhesive tape 43 includes two ethylene propylene diene monomer foam rubber 431 strips inserted and matched with the in-frame heat insulation adhesive tape 42 and two ethylene propylene diene monomer solid adhesive tapes 432 corresponding to the multi-cavity heat insulation tape 51. The ethylene-propylene-diene monomer foaming rubber strip 431 comprises a base body, a plurality of slots corresponding to the heat-insulating rubber strips in the frame and card-inserting heads 4311 corresponding to the inner side slots a and A of the inner and outer frame profiles are arranged on the outer wall of the base body, and supporting legs 4312 are arranged on the inner wall of the base body; the ethylene-propylene-diene monomer dense rubber strip 432 comprises a bottom plate, wherein a top 4321 is arranged at the inner end of the bottom plate, and the top corresponds to the inner end of the out-fan multi-cavity heat insulation strip on the bottom plate crimping support leg.
The structure of the frame outer heat insulation rubber strip is the same as the structure size of the fan inner heat insulation rubber strip.
Preferably, as shown in fig. 7, the pressing bar 7 includes a first plate 71 and a second plate 72, the first plate 71 and the second plate 72 are L-shaped, the free end of the first plate is folded towards the T-shaped positioning groove to extend to form an insertion portion 73, a wall surface of the insertion portion opposite to the T-shaped positioning groove 214 is provided with an insertion groove 731, an open inner plate of the T-shaped positioning groove 214 is inserted into the insertion groove 731, the free end of the insertion portion 73 is an arc-shaped groove 732, a foam rubber strip 74 is installed in the arc-shaped groove, the open inner plate of the insertion groove abuts against the foam rubber strip 74, the free end of the second plate 72 is folded to extend to form a third plate 75, the in-glass rubber strip 81 is installed between the third plate 75 and the double-hollow glass 3, and a connecting end to a free end of the second plate gradually becomes thick to increase strength of the support.
The utility model effectively improves the air tightness, water tightness, heat preservation and sound insulation performance of the outward opening window.
Claims (8)
1. The utility model provides an energy-conserving aluminum alloy swinging-out casement window which characterized in that: the window frame comprises a window frame body, window sashes and double-hollow glass, wherein the window frame body comprises an outer frame section bar and an inner frame section bar, two spaced outer frame heat insulation strips and inner frame heat insulation strips are arranged between the inner frame section bar and the outer frame section bar, first heat insulation and sound insulation cotton is filled between the inner frame heat insulation strips and the outer frame heat insulation strips, the inner frame heat insulation strips comprise a body, adhesive tape bulges are arranged on the inner wall of the body at intervals, slots are formed between the adjacent bulges, an intermediate adhesive tape is inserted and matched on the slots, and two ends of the intermediate adhesive tape are inserted and matched with corresponding slots of the outer frame section bar and the inner frame section bar;
the window sash comprises an inner sash profile and an outer sash profile, wherein an outer multi-cavity heat insulation strip and an inner heat insulation strip are arranged between the inner sash profile and the outer sash profile, second heat insulation soundproof cotton is filled between the outer multi-cavity heat insulation strip and the inner heat insulation strip, third heat insulation soundproof cotton is arranged between the inner heat insulation strip and the end surfaces of the double hollow glass, a pressing strip and an inner glass adhesive tape are arranged between the inner sash profile and the inner walls of the double hollow glass, an outer glass adhesive tape is arranged between one end of the outer sash profile and the double hollow glass, and an outer sealing adhesive tape is arranged between the other end of the outer sash profile and the outer frame profile;
the cavity between the window frame and the window sash is divided into an airtight cavity and a watertight cavity by the middle adhesive tape and the multi-cavity heat insulation strip outside the window sash.
2. The energy-saving aluminum alloy outward-opening window of claim 1, characterized in that: the outer frame sectional material comprises an outer frame, and three clamping grooves a are formed in a plate body a of the outer frame, which is opposite to the inner frame sectional material, and are respectively used for inserting and matching the outer ends of the outer heat insulation rubber strip, the inner heat insulation rubber strip and the middle rubber strip; the inner frame section comprises an inner frame, three clamping grooves A corresponding to the clamping grooves a are formed in a plate body A of the inner frame opposite to the outer frame section and used for inserting and matching the inner ends of the outer heat insulation rubber strip, the inner heat insulation rubber strip and the middle rubber strip respectively, and a baffle plate C is arranged on a plate body B of the inner frame opposite to the plate body A in an extending mode.
3. The energy-saving aluminum alloy outward-opening window as claimed in claim 2, characterized in that: the outer fan section comprises a fan outer frame, two ends of an outer side plate of the fan outer frame are respectively provided with a glass outer baffle and an outer window frame baffle in an extending manner, an outer glass adhesive tape is arranged between the glass outer baffle and the outer wall of the double-hollow glass, an outer sealing adhesive tape is arranged between the fan outer frame baffle and the outer frame section, and two slots C are formed in an inner side plate of the fan outer frame and are respectively used for inserting and matching outer ends of a multi-cavity heat insulation strip outside the fan and an inner heat insulation adhesive tape inside the fan; the inner sash section comprises a sash inner frame, two slots D corresponding to the slots C are formed in the outer side plate of the sash inner frame, the two slots D are respectively used for inserting and matching the outer multi-cavity heat insulation strip and the inner end of the inner heat insulation rubber strip, an L plate body is arranged on the inner side of the inner side plate of the sash inner frame, the L plate body is aligned with a baffle C at intervals, and an inner sealing rubber strip is arranged between the baffle C and the inner side plate of the sash inner frame; a T-shaped positioning groove is arranged between the free end of the L-shaped plate body and the outer side plate of the fan inner frame, one side end of a pressing strip is inserted into the T-shaped positioning groove, and the other side end of the pressing strip is inserted into an inner adhesive tape of the double-hollow glass inner wall mounting glass.
4. The energy-saving aluminum alloy outward-opening window of claim 1, characterized in that: the middle adhesive tape is integrally formed and comprises an ethylene-propylene-diene monomer foaming adhesive tape inserted into the inner heat insulation strip of the frame and an ethylene-propylene-diene monomer dense adhesive tape corresponding to the outer multi-cavity heat insulation strip.
5. The energy-saving aluminum alloy outward-opening window according to claim 4, characterized in that: the ethylene-propylene-diene monomer foaming rubber strip comprises a base body, wherein a plurality of slots corresponding to the heat-insulation rubber strips in the frame and card-inserting heads corresponding to the inner side clamping grooves a and A of the inner frame section bar and the outer frame section bar are arranged on the outer wall of the base body, and supporting legs are arranged on the inner wall of the base body; the ethylene-propylene-diene monomer dense rubber strip comprises a bottom plate, wherein a top head is arranged at the inner end of the bottom plate, the bottom plate is in compression joint with the supporting leg, and the top head corresponds to the inner end of the out-fan multi-cavity heat insulation strip.
6. The energy-saving aluminum alloy outward-opening window of claim 1, characterized in that: the structure of the frame outer heat insulation rubber strip is the same as the structure size of the fan inner heat insulation rubber strip.
7. The energy-saving aluminum alloy outward-opening window of claim 3, characterized in that: layering 7 includes first plate body and second plate body, and this first plate body and second plate body are the L form, and the free end of this first plate body is rolled over towards T type constant head tank side and is prolonged there is the card portion of inserting, is equipped with card slot at the wall of this card portion of relative T type constant head tank, and this card slot supplies the opening inner panel of T type constant head tank to insert and establishes, and the free end of this card portion is arc-shaped slot, installs the foaming adhesive tape in this arc-shaped slot, and this card slot's opening inner panel supports the top on the foaming adhesive tape, and the free end of this second plate body is rolled over and is prolonged there is the third plate body, installs between this third plate body and the two cavity glass adhesive tape in the glass.
8. The energy-saving aluminum alloy outward-opening window of claim 7, characterized in that: the first plate body gradually becomes thicker towards the inner section bar direction of the sash.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202122853655.1U CN216714197U (en) | 2021-11-17 | 2021-11-17 | Energy-saving aluminum alloy outward-opening window |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202122853655.1U CN216714197U (en) | 2021-11-17 | 2021-11-17 | Energy-saving aluminum alloy outward-opening window |
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CN216714197U true CN216714197U (en) | 2022-06-10 |
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CN202122853655.1U Active CN216714197U (en) | 2021-11-17 | 2021-11-17 | Energy-saving aluminum alloy outward-opening window |
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CN (1) | CN216714197U (en) |
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2021
- 2021-11-17 CN CN202122853655.1U patent/CN216714197U/en active Active
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