CN106948715B - A kind of four sealed energy-saving aluminum alloy doors and windows - Google Patents
A kind of four sealed energy-saving aluminum alloy doors and windows Download PDFInfo
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- CN106948715B CN106948715B CN201510576810.6A CN201510576810A CN106948715B CN 106948715 B CN106948715 B CN 106948715B CN 201510576810 A CN201510576810 A CN 201510576810A CN 106948715 B CN106948715 B CN 106948715B
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- 229910000838 Al alloy Inorganic materials 0.000 title claims abstract description 134
- 229920001971 elastomer Polymers 0.000 claims abstract description 146
- 239000011521 glass Substances 0.000 claims abstract description 132
- 238000007789 sealing Methods 0.000 claims abstract description 127
- 238000009413 insulation Methods 0.000 claims abstract description 122
- 238000001125 extrusion Methods 0.000 claims abstract description 10
- 229920002943 EPDM rubber Polymers 0.000 claims description 16
- 239000000463 material Substances 0.000 claims description 16
- 239000002390 adhesive tape Substances 0.000 claims description 14
- 238000005192 partition Methods 0.000 claims description 13
- 238000005187 foaming Methods 0.000 claims description 9
- 239000012774 insulation material Substances 0.000 claims description 8
- 230000003014 reinforcing effect Effects 0.000 claims description 7
- 239000004033 plastic Substances 0.000 claims description 5
- 238000000034 method Methods 0.000 claims description 3
- 239000011324 bead Substances 0.000 abstract description 16
- 238000004321 preservation Methods 0.000 abstract description 7
- 230000000694 effects Effects 0.000 description 5
- 230000035939 shock Effects 0.000 description 3
- 230000032683 aging Effects 0.000 description 2
- 238000005265 energy consumption Methods 0.000 description 2
- XAGFODPZIPBFFR-UHFFFAOYSA-N aluminium Chemical compound [Al] XAGFODPZIPBFFR-UHFFFAOYSA-N 0.000 description 1
- 229910052782 aluminium Inorganic materials 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 239000011810 insulating material Substances 0.000 description 1
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- Specific Sealing Or Ventilating Devices For Doors And Windows (AREA)
Abstract
A kind of four sealed energy-saving aluminum alloy doors and windows, including sash, door and window fan, first sealing joint strip, the second sealing joint strip, third sealing joint strip, 4th sealing joint strip, the first air chamber, the second air chamber, third air chamber, glazing bead crash roll, glazing bead, glass heat-proof pad, long-tail rubber strip in glass, glass outer rubber strip, hollow glass.Four sealings of the first sealing joint strip, the second sealing joint strip, third sealing joint strip, the 4th sealing joint strip are formed by the first air chamber, the second air chamber, third air chamber and greatly strengthen the heat preservation of door and window, airtight, sound insulation property;Glazing bead is become soft and contacted by glazing bead crash roll with contacting firmly for aluminium alloy extrusions in door and window fan, greatly reduces the noise generated between aluminium alloy extrusions in glazing bead and door and window fan.This four sealed energy-savings aluminum alloy doors and windows have good thermal insulation property, air-tightness and sound insulation property, can satisfy energy-efficient needs, and provide a comfortable indoor environment for user.
Description
Technical Field
The invention relates to the field of building doors and windows, in particular to a four-seal energy-saving aluminum alloy door and window.
Background
The existing sealing between the aluminum alloy door and window frame leaves of the building is mostly two or three sealing, the sealing effect is not good, and the heat insulation effect is also not good. Although some aluminum alloy doors and windows adopt four sealing structures, two middle seals are formed by the same sealing rubber strip, the size of a formed air cavity is too small, and the heat preservation and insulation effect is not good. The glass depression bar of the existing aluminum alloy door and window is directly contacted with the door and window frame sash, and noise is easily generated at the lap joint of the glass depression bar and the door and window frame sash under the action of external force such as wind power, vibration force and the like.
Disclosure of Invention
Aiming at the defects, the invention provides a four-seal energy-saving aluminum alloy door and window.
The invention is realized by the following technical scheme: a four-sealing energy-saving aluminum alloy door and window comprises a door and window frame, door and window sashes, a first sealing rubber strip, a second sealing rubber strip, a third sealing rubber strip, a fourth sealing rubber strip, a first air cavity, a second air cavity, a third air cavity, a glass pressing strip shockproof pad, a glass pressing strip, a glass heat insulation pad, a glass inner long tail rubber strip, a glass outer rubber strip and hollow glass; the method is characterized in that: the door and window frame consists of an inner aluminum alloy section, an outer aluminum alloy section, a first heat insulation strip and a third clamping groove; the outer side surface of the aluminum alloy section in the door and window frame, a first clamping groove and a first hook groove are arranged on the aluminum alloy section in the door and window frame; the first heat insulation strip is provided with a first clamping head, a first cavity, a partition plate, a second clamping groove and a second hook groove; a fourth sealing rubber strip is arranged on the extension section of the aluminum alloy section outside the door and window frame; the door and window sash consists of an inner aluminum alloy section, an outer aluminum alloy section, a second heat insulation strip, a third heat insulation strip and a foaming heat insulation material; a first sealing rubber strip is arranged on the aluminum alloy section in the door and window sash, the inner side surface of the aluminum alloy section in the door and window sash, a fifth chuck, a fourth hook groove and a clamping column; a stepped surface, a seventh clamping groove and an outer glass rubber strip are arranged on the outer aluminum alloy section of the door and window sash; the second heat insulation strip is provided with a first cavity and a boss; the boss is provided with a second cavity, a third cavity and a boss outer side surface; the second sealing rubber strip is provided with a first contact surface, a fourth cavity, a first clamping hook and a second clamping head; a second contact surface, a fifth cavity, a second clamping hook and a third clamping head are arranged on the third sealing rubber strip; the glass pressing strip is provided with a third clamping hook, a reinforcing rib, a fourth clamping groove, a sixth clamping head and a protruding end; a fifth clamping groove, a third hooking groove and a fourth clamping head are formed in the glass pressing strip shock pad; a seventh chuck, a fourth clamping hook and a short bulge are arranged on the glass heat insulation pad; the long tail rubber strip in the glass is provided with a first long tail, a second long tail, a sixth clamping groove and the side surface of the head of the long tail rubber strip; the hollow glass is provided with a hollow glass outer side surface and a hollow glass inner side surface; the first heat insulation strips are provided with first cavities and partition plates, and the partition plates of two adjacent first heat insulation strips on the door and window frame divide the cavities between the two adjacent first heat insulation strips into three parts; a boss of the second heat insulation strip is provided with a second cavity and a third cavity, and a cavity formed between the second heat insulation strip and the third heat insulation strip is filled with a foaming heat insulation material; the second sealing rubber strip is connected with the first heat insulation strip and the aluminum alloy section in the door and window frame in a clamping manner through the matching of the first hook groove, the first clamping hook, the second clamping groove and the second clamping head, so that the first contact surface is tightly attached to the inner side surface of the aluminum alloy section in the door and window sash; the second sealing rubber strip is a soft and hard co-extrusion rubber strip, a first clamping hook and a second clamping head of the second sealing rubber strip are made of ethylene propylene diene monomer rubber materials, the rest part of the second sealing rubber strip is made of ethylene propylene diene monomer foamed rubber materials, and a fourth cavity is formed in the second sealing rubber strip; the third sealing rubber strip is connected with the first heat insulation strip and the aluminum alloy section outside the door and window frame in a clamping manner through the matching of the second hook groove, the second clamping hook, the third clamping groove and the third clamping head, so that the second contact surface is tightly attached to the outer side surface of the boss; the third sealing rubber strip is a soft and hard co-extrusion rubber strip, a second clamping hook and a third clamping head of the third sealing rubber strip are made of ethylene propylene diene monomer rubber materials, the rest part of the third sealing rubber strip is made of ethylene propylene diene monomer foamed rubber materials, and a fifth cavity is formed in the third sealing rubber strip; the first sealing rubber strip, the outer side wall body presented by the cross section of the aluminum alloy section in the door window sash, the second sealing rubber strip and the outer side wall body presented by the cross section of the aluminum alloy section in the door window frame enclose a first air cavity, the second sealing rubber strip, the outer side wall body presented by the cross section of the aluminum alloy section in the door window sash, the outer side wall body presented by the cross section of the second heat insulation strip, the third sealing rubber strip and the outer side wall body presented by the cross section of the first heat insulation strip enclose a second air cavity, and the third sealing rubber strip, the outer side wall body presented by the cross section of the second heat insulation strip, the outer side wall body presented by the cross section of the aluminum alloy section in the door window sash, the fourth sealing rubber strip and the outer side wall body presented by; the glass pressing strip is connected with the glass pressing strip shockproof pad through the matching connection of a third clamping hook and a third hooking groove, a fourth clamping head on the glass pressing strip shockproof pad is clamped on a fourth clamping groove on the reinforcing rib, and the force transmitted to the glass pressing strip by the hollow glass through the long tail rubber strip in the glass enables the protruding end to be tightly attached to a clamping column of the aluminum alloy section in the door window sash; the glass pressing strip shockproof pad is a plastic piece; the long tail adhesive tape is connected with the glass pressing strip through the cooperation of a sixth clamping head and a sixth clamping groove in the glass, the second long tail and the head side face of the long tail adhesive tape are tightly attached to the inner side face of the hollow glass, and the top ends of the first long tail and the second long tail respectively extend to the side face of the glass heat insulation pad between the two short bulges.
The first heat insulation strip is connected with the aluminum alloy sections in the door and window frame and the aluminum alloy sections outside the door and window frame through the matching of a first clamping groove and a first clamping head to form the door and window frame, the second heat insulation strip and the third heat insulation strip are connected with the aluminum alloy sections in the door and window sash and the aluminum alloy sections outside the door and window sash through the matching of the first clamping groove and the first clamping head to form the door and window sash, and a first sealing rubber strip arranged on the aluminum alloy sections in the door and window sash is tightly attached to the outer side face of the aluminum alloy sections in the door and window frame.
The fourth sealing rubber strip arranged on the aluminum alloy section outside the door and window frame is tightly attached to the step surface of the aluminum alloy section outside the door and window sash.
The glass heat insulation pad is fixedly connected to the side surface, close to the hollow glass, of the cross section of the door and window sash through the matching of the fourth hook, the fourth hook groove, the seventh chuck and the seventh clamping groove.
The glass pressing strip shockproof pad is connected with the aluminum alloy section in the door and window sash through the matching connection of the fifth clamping groove and the fifth clamping head.
The outer glass adhesive tape arranged on the outer aluminum alloy section of the door and window sash is tightly attached to the outer side surface of the hollow glass.
The invention has the advantages that: the aluminum alloy sections in the door and window frame and the aluminum alloy sections outside the door and window frame are connected through the first heat insulation strips to form the door and window frame, and the aluminum alloy sections in the door and window sash and the aluminum alloy sections outside the door and window sash are connected through the second heat insulation strips and the third heat insulation strips to form the door and window sash, so that the structure not only keeps the characteristics of high strength and difficult aging of the aluminum alloy sections, but also reduces the heat conductivity of the door and window frame; the first heat insulation strip is provided with the first cavity and the partition plate, so that the heat insulation performance is improved, the mechanical property of the heat insulation strip is enhanced, and the effect of connecting the aluminum alloy sections inside and outside the door and window frame can be better achieved; the partition boards of the first heat insulation strips divide a cavity between the two first heat insulation strips in the door and window frame into three parts, so that the heat insulation performance of the door and window frame is further improved; the second heat insulation strip is provided with a first cavity and a boss, and the boss is also provided with a second cavity and a third cavity, so that the mechanical property and the heat insulation property of the second heat insulation strip are greatly improved; the cavity between the second heat insulation strip and the third heat insulation strip is filled with a foaming heat insulation material, so that the heat insulation and sound insulation performance of the door and window sash is greatly enhanced; the second sealing rubber strip and the third sealing rubber strip are soft and hard co-extrusion rubber strips, the first clamping hook and the second clamping head of the second sealing rubber strip and the second clamping hook and the third clamping head of the third sealing rubber strip are made of ethylene propylene diene monomer rubber materials, so that the connection strength of the first clamping hook and the second clamping head can be ensured, and the rest parts of the second sealing rubber strip and the third sealing rubber strip are made of ethylene propylene diene monomer foamed rubber materials, so that the heat conduction can be further reduced, and the heat insulation performance is improved; the second sealing rubber strip is connected to the door and window frame through the first clamping hook and the second clamping head, and the third sealing rubber strip is connected to the door and window frame through the second clamping hook and the third clamping head, so that the connection is firm, the second sealing rubber strip is not easy to fall off, and the first contact surface of the second sealing rubber strip can be ensured to be tightly attached to the inner side surface of the aluminum alloy section in the door and window sash and the second contact surface of the third sealing rubber strip are tightly attached to the outer side surface of the boss; the first air cavity, the second air cavity and the third air cavity formed by four sealing of the first sealing rubber strip, the second sealing rubber strip, the third sealing rubber strip and the fourth sealing rubber strip greatly enhance the heat preservation performance, the air tightness performance and the sound insulation performance of the door and window; the glass pressing strip shockproof pad is a plastic piece, hard contact between the glass pressing strip and the aluminum alloy section in the door and window sash is changed into soft contact, and noise generated between the glass pressing strip and the aluminum alloy section in the door and window sash under the action of external force such as wind power, vibration force and the like is greatly reduced; the glass heat insulation pad is fixed on the side surface, close to the hollow glass, of the cross section of the door and window sash through the fourth clamping hook and the seventh clamping head, and is not easy to fall off; the first long tail and the second long tail of the in-glass long tail adhesive tape divide a cavity enclosed by the glass heat insulation pad, the out-glass adhesive tape, the hollow glass, the glass depression bar and the glass depression bar shock pad into three parts, so that the heat transfer is greatly reduced, and the heat insulation performance of the door and window is improved; the glass is hollow glass, so that the heat preservation and sound insulation performance of the door and window is greatly enhanced; the four-seal energy-saving aluminum alloy door and window has good heat preservation performance, air tightness performance and sound insulation performance, can greatly reduce building energy consumption, meets the energy-saving requirement, and provides a comfortable indoor environment for users.
Drawings
FIG. 1: the invention is assembled in cross section;
FIG. 2: the invention is a schematic cross-sectional structure of a door and window frame;
FIG. 3: the invention is a schematic cross section structure of a door and window sash;
FIG. 4: the invention discloses a schematic cross-sectional structure of a glass pressing strip shock pad;
FIG. 5: the cross section structure of the glass bead is schematic;
in the figure: 1 door window frame, 2 door window sash, 3 first sealing rubber strip, 4 second sealing rubber strip, 5 third sealing rubber strip, 6 fourth sealing rubber strip, 7 first air cavity, 8 second air cavity, 9 third air cavity, 10 glass bead vibration-proof pad, 11 glass bead, 12 glass heat-insulating pad, 13 glass inner long tail rubber strip, 14 glass outer rubber strip, 15 hollow glass, 16 door window frame inner aluminum alloy section, 17 door window frame outer aluminum alloy section, 18 first heat-insulating strip, 19 third clamping groove, 20 door window frame inner aluminum alloy section outer side surface, 21 first clamping groove, 22 first hooking groove, 23 first clamping head, 24 first cavity, 25 partition plate, 26 second clamping groove, 27 second hooking groove, 28 door window inner aluminum alloy section, 29 door window sash outer aluminum alloy section, 30 second heat-insulating strip, 31 third heat-insulating strip, 32 foaming heat-insulating material, 33 door window inner aluminum alloy section inner side surface, 34 fifth clamping head, 35 fourth hook groove, 36 clamping columns, 37 step surfaces, 38 seventh clamping grooves, 39 bosses, 40 second cavities, 41 third cavities, 42 boss outer side surfaces, 43 first contact surfaces, 44 fourth cavities, 45 first clamping hooks, 46 second clamping heads, 47 second contact surfaces, 48 fifth cavities, 49 second clamping hooks, 50 third clamping heads, 51 third clamping hooks, 52 reinforcing ribs, 53 fourth clamping grooves, 54 sixth clamping heads, 55 protruding ends, 56 fifth clamping grooves, 57 third hook grooves, 58 fourth clamping heads, 59 seventh clamping heads, 60 fourth clamping hooks, 61 short protrusions, 62 first long tails, 63 second long tails, 64 sixth clamping grooves, 65 long tail head side surfaces, 66 hollow glass outer side surfaces and 67 hollow glass inner side surfaces.
Detailed Description
A four-sealing energy-saving aluminum alloy door and window comprises a door and window frame 1, door and window sashes 2, a first sealing rubber strip 3, a second sealing rubber strip 4, a third sealing rubber strip 5, a fourth sealing rubber strip 6, a first air cavity 7, a second air cavity 8, a third air cavity 9, a glass bead shockproof pad 10, a glass bead 11, a glass heat insulation pad 12, an in-glass long tail rubber strip 13, an out-glass rubber strip 14 and hollow glass 15; the method is characterized in that: the door and window frame 1 consists of an inner aluminum alloy section 16, an outer aluminum alloy section 17, a first heat insulation strip 18 and a third clamping groove 19; the outer side surface 20, a first clamping groove 21 and a first hook groove 22 of the aluminum alloy section in the door and window frame are arranged on the aluminum alloy section 16 in the door and window frame; the first heat insulation strip 18 is provided with a first clamping head 23, a first cavity 24, a partition plate 25, a second clamping groove 26 and a second hook groove 27; a fourth sealing rubber strip 6 is arranged on the extension section of the aluminum alloy section 17 outside the door and window frame; the door and window sash 2 consists of an inner aluminum alloy section 28 of the door and window sash, an outer aluminum alloy section 29 of the door and window sash, a second heat insulation strip 30, a third heat insulation strip 31 and a foaming heat insulation material 32; the first sealing rubber strip 3, the inner side surface 33 of the aluminum alloy section in the door and window sash, a fifth chuck 34, a fourth hook groove 35 and a clamping column 36 are arranged on the aluminum alloy section 28 in the door and window sash; the aluminum alloy section 29 outside the door and window sash is provided with a step surface 37, a seventh clamping groove 38 and an outer glass adhesive tape 14; the second heat insulation strip 30 is provided with a first cavity 24 and a boss 39; the boss 39 is provided with a second cavity 40, a third cavity 41 and a boss outer side surface 42; the second sealing rubber strip 4 is provided with a first contact surface 43, a fourth cavity 44, a first clamping hook 45 and a second clamping head 46; the third sealing rubber strip 5 is provided with a second contact surface 47, a fifth cavity 48, a second clamping hook 49 and a third clamping head 50; the glass pressing strip 11 is provided with a third clamping hook 51, a reinforcing rib 52, a fourth clamping groove 53, a sixth clamping head 54 and a protruding end 55; the glass pressing strip shockproof pad 10 is provided with a fifth clamping groove 56, a third hooking groove 57 and a fourth clamping head 58; the glass heat insulation pad 12 is provided with a seventh chuck 59, a fourth clamping hook 60 and a short bulge 61; the long tail rubber strip 13 in the glass is provided with a first long tail 62, a second long tail 63, a sixth clamping groove 64 and a side surface 65 of the head part of the long tail rubber strip; the hollow glass 15 is provided with a hollow glass outer side surface 66 and a hollow glass inner side surface 67; the first heat insulation strips 18 are provided with first cavities 24 and partition plates 25, and the partition plates 25 of two adjacent first heat insulation strips 18 on the door and window frame 1 divide the cavities between the two adjacent first heat insulation strips 18 into three parts; a boss 39 of the second heat insulation strip 30 is provided with a second cavity 40 and a third cavity 41, and a cavity formed between the second heat insulation strip 30 and the third heat insulation strip 31 is filled with a foaming heat insulation material 32; the second sealing rubber strip 4 is connected with the first heat insulation strip 18 and the aluminum alloy section 16 in the door and window frame in a clamping manner through the matching of the first hook groove 22, the first clamping hook 45, the second clamping groove 26 and the second clamping head 46, so that the first contact surface 43 is tightly attached to the inner side surface 33 of the aluminum alloy section in the door and window sash; the second sealing rubber strip 4 is a soft and hard co-extrusion rubber strip, a first clamping hook 45 and a second clamping head 46 of the second sealing rubber strip 4 are made of ethylene propylene diene monomer rubber materials, the rest part of the second sealing rubber strip 4 is made of ethylene propylene diene monomer foamed rubber materials, and a fourth cavity 44 is formed in the second sealing rubber strip 4; the third sealing rubber strip 5 is connected with the first heat insulation strip 18 and the aluminum alloy section 17 outside the door and window frame in a clamping way through the matching of the second hook groove 27, the second clamping hook 49, the third clamping groove 19 and the third clamping head 50, so that the second contact surface 47 is tightly attached to the outer side surface 42 of the boss; the third sealing rubber strip 5 is a soft and hard co-extrusion rubber strip, a second clamping hook 49 and a third clamping head 50 of the third sealing rubber strip 5 are made of ethylene propylene diene monomer rubber materials, the rest part of the third sealing rubber strip 5 is made of ethylene propylene diene monomer foamed rubber materials, and a fifth cavity 48 is formed in the third sealing rubber strip 5; the first sealing rubber strip 3, the outer side wall presented by the cross section of the aluminum alloy section 28 in the door and window sash, the second sealing rubber strip 4 and the outer side wall presented by the cross section of the aluminum alloy section 16 in the door and window sash enclose a first air cavity 7, the second sealing rubber strip 4, the outer side wall presented by the cross section of the aluminum alloy section 28 in the door and window sash, the outer side wall presented by the cross section of the second heat insulation strip 30, the third sealing rubber strip 5 and the outer side wall presented by the cross section of the first heat insulation strip 18 enclose a second air cavity 8, and the outer side wall presented by the cross section of the third sealing rubber strip 5, the second heat insulation strip 30, the outer side wall presented by the cross section of the aluminum alloy section 29 in the door and window sash, the fourth sealing rubber strip 6 and the outer side wall presented by the cross section of the aluminum; the glass bead 11 is connected with the glass bead shockproof pad 10 through the matching connection of a third clamping hook 51 and a third hooking groove 57, a fourth clamping head 58 on the glass bead shockproof pad 10 is clamped on a fourth clamping groove 53 on the reinforcing rib 52, and the force transmitted to the glass bead 11 by the hollow glass 15 through the long tail rubber strip 13 in the glass enables the protruding end 55 to be tightly attached to the clamping column 36 of the aluminum alloy section 28 in the door window sash; the glass pressing strip shockproof pad 10 is a plastic piece; the long tail adhesive tape 13 in the glass is connected with the glass pressing strip 11 through the matching connection of the sixth clamping head 54 and the sixth clamping groove 64, the second long tail 63 and the head side 65 of the long tail adhesive tape are tightly attached to the inner side surface 67 of the hollow glass, and the top ends of the first long tail 62 and the second long tail 63 respectively extend to the side surface of the glass heat insulation pad 12 between the two short bulges 61.
The two sides of the first heat insulation strip 18 are provided with an inner aluminum alloy section 16 of the door and window frame and an outer aluminum alloy section 17 of the door and window frame, the first heat insulation strip 18 is respectively connected with the inner aluminum alloy section 16 of the door and window frame and the outer aluminum alloy section 17 of the door and window frame through the matching of a first clamping groove 21 and a first clamping head 23 to form the door and window frame 1, the two sides of the second heat insulation strip 30 and a third heat insulation strip 31 are provided with an inner aluminum alloy section 28 of the door and window sash and an outer aluminum alloy section 29 of the door and window sash, the second heat insulation strip 30 and the third heat insulation strip 31 are respectively connected with the inner aluminum alloy section 28 of the door and window sash and the outer aluminum alloy section 29 of the door and window sash through the matching of the first clamping head 21 and the first clamping head 23 to form the door and window sash 2, and; the fourth sealing rubber strip 6 arranged on the aluminum alloy section bar 17 outside the door and window frame is tightly attached to the step surface 37 of the aluminum alloy section bar 29 outside the door and window sash; the glass heat insulation pad 12 is fixed on the side surface, which is close to the hollow glass 15 and is shown on the cross section of the door window sash 2, of the door window sash through the matching connection of the fourth hook 60, the fourth hook groove 35, the seventh clamping head 59 and the seventh clamping groove 38; the glass pressing strip shockproof pad 10 is connected with the aluminum alloy section 28 in the door and window sash through the matching connection of the fifth clamping groove 56 and the fifth clamping head 34; the outer glass rubber strip 14 arranged on the outer aluminum alloy section 29 of the door and window sash is tightly attached to the outer side surface 66 of the hollow glass.
The aluminum alloy section 16 in the door and window frame and the aluminum alloy section 17 outside the door and window frame are connected through the first heat insulation strip 18 to form the door and window frame 1, and the aluminum alloy section 28 in the door and window sash and the aluminum alloy section 29 outside the door and window sash are connected through the second heat insulation strip 30 and the third heat insulation strip 31 to form the door and window sash 2, so that the structure not only keeps the characteristics of high strength and difficult aging of the aluminum alloy sections, but also reduces the heat conductivity of the door and window frame; the first heat insulation strip 18 is provided with the first cavity 24 and the partition plate 25, so that the heat insulation performance is improved, the mechanical property of the heat insulation strip is enhanced, and the effect of connecting the inner aluminum alloy section and the outer aluminum alloy section of the door and window frame 1 can be better achieved; the partition boards 25 of the first heat insulation strips 18 divide the cavity between the two first heat insulation strips 18 in the door and window frame 1 into three parts, so that the heat insulation performance of the door and window frame is further improved; the second heat insulation strip 30 is provided with a first cavity 24 and a boss 39, and the boss 39 is also provided with a second cavity 40 and a third cavity 41, so that the mechanical property and the heat insulation property of the second heat insulation strip 30 are greatly improved; the cavity between the second heat insulation strip 30 and the third heat insulation strip 31 is filled with the foaming heat insulation material 32, so that the heat insulation and sound insulation performance of the door and window sash is greatly enhanced; the second sealing rubber strip 4 and the third sealing rubber strip 5 are soft and hard co-extrusion rubber strips, the first clamping hook 45 and the second clamping head 46 of the second sealing rubber strip 4 and the second clamping hook 49 and the third clamping head 50 of the third sealing rubber strip 5 are made of ethylene propylene diene monomer rubber materials, so that the connection strength of the two can be ensured, and the rest parts of the second sealing rubber strip 4 and the third sealing rubber strip 5 are made of ethylene propylene diene monomer foamed rubber materials, so that the heat conduction can be further reduced, and the heat insulation performance is improved; the second sealing rubber strip 4 is connected to the door and window frame 1 through a first clamping hook 45 and a second clamping head 46, and the third sealing rubber strip 5 is connected to the door and window frame 1 through a second clamping hook 49 and a third clamping head 50, so that the connection is firm and is not easy to fall off, and the first contact surface 43 of the second sealing rubber strip 4 can be ensured to be tightly attached to the inner side surface 33 of the aluminum alloy section in the door and window sash and the second contact surface 47 of the third sealing rubber strip 5 to be tightly attached to the outer side surface 42 of the boss; the first air cavity 7, the second air cavity 8 and the third air cavity 9 formed by four sealing of the first sealing rubber strip 3, the second sealing rubber strip 4, the third sealing rubber strip 5 and the fourth sealing rubber strip 6 greatly enhance the heat insulation performance, the air tightness performance and the sound insulation performance of the door and window; the glass pressing strip shockproof pad 10 is a plastic piece, and changes the hard contact of the glass pressing strip 11 and the aluminum alloy section 28 in the door and window sash into soft contact, thereby greatly reducing the noise generated between the glass pressing strip 11 and the aluminum alloy section 28 in the door and window sash under the action of external force such as wind power, vibration force and the like; the glass heat insulation pad 12 is fixed on the side surface, which is close to the hollow glass 15 and is shown on the cross section of the door window sash 2, through the fourth clamping hook 60 and the seventh clamping head 59, and is not easy to fall off; the first long tail 62 and the second long tail 63 of the in-glass long tail adhesive tape 13 separate a cavity enclosed among the glass heat insulation pad 12, the out-glass adhesive tape 14, the hollow glass 15, the glass bead 11 and the glass bead shockproof pad 10 into three parts, thereby greatly reducing heat transfer and improving the heat insulation performance of doors and windows; the glass adopts hollow glass 15, so that the heat preservation and sound insulation performance of the door and window is greatly enhanced; the four-seal energy-saving aluminum alloy door and window has good heat preservation performance, air tightness performance and sound insulation performance, can greatly reduce building energy consumption, meets the energy-saving requirement, and provides a comfortable indoor environment for users.
Claims (3)
1. A four-sealing energy-saving aluminum alloy door and window comprises a door and window frame (1), door and window sashes (2), a first sealing rubber strip (3), a second sealing rubber strip (4), a third sealing rubber strip (5), a fourth sealing rubber strip (6), a first air cavity (7), a second air cavity (8), a third air cavity (9), a glass pressing strip shockproof pad (10), a glass pressing strip (11), a glass heat insulation pad (12), an in-glass long tail rubber strip (13), an out-glass rubber strip (14) and hollow glass (15), wherein,
the door and window frame (1) consists of an aluminum alloy section (16) in the door and window frame, an aluminum alloy section (17) outside the door and window frame, a first heat insulation strip (18) and a third clamping groove (19); the first heat insulation strip (18) is respectively connected with the aluminum alloy section bar (16) in the door and window frame and the aluminum alloy section bar (17) outside the door and window frame through clamping connection to form the door and window frame (1),
the outer side surface (20) of the aluminum alloy section in the door and window frame, a first clamping groove (21) and a first hook groove (22) are arranged on the aluminum alloy section (16) in the door and window frame;
the first heat insulation strip (18) is provided with a first clamping head (23), a first cavity (24), a partition plate (25), a second clamping groove (26) and a second hook groove (27);
a fourth sealing rubber strip (6) is arranged on the extension section of the aluminum alloy section (17) outside the door and window frame;
wherein,
the door and window sash (2) consists of an inner aluminum alloy section (28) of the door and window sash, an outer aluminum alloy section (29) of the door and window sash, a second heat insulation strip (30), a third heat insulation strip (31) and a foaming heat insulation material (32); wherein the second heat insulating strip (30) and the third heat insulating strip (31) are respectively connected with the aluminum alloy section (28) in the door and window sash and the aluminum alloy section (29) outside the door and window sash through clamping connection to form the door and window sash (2),
a first sealing rubber strip (3) is arranged on the aluminum alloy section (28) in the door and window sash, the inner side surface (33) of the aluminum alloy section in the door and window sash, a fifth chuck (34), a fourth hook groove (35) and a clamping column (36); a step surface (37), a seventh clamping groove (38) and an outer glass adhesive tape (14) are arranged on the outer aluminum alloy section (29) of the door and window sash; the second heat insulation strip (30) is provided with a first cavity (24) and a boss (39); the boss (39) is provided with a second cavity (40), a third cavity (41) and a boss outer side surface (42);
wherein, a seventh chuck (59), a fourth clamping hook (60) and a short protrusion (61) are arranged on the glass heat insulation pad (12); the glass heat insulation pad (12) is fixedly connected to the side face, close to the hollow glass (15), of the cross section of the door and window sash (2) through the matching of a fourth hook (60), a fourth hook groove (35), a seventh clamping head (59) and a seventh clamping groove (38);
the hollow glass (15) is provided with a hollow glass outer side surface (66) and a hollow glass inner side surface (67); the hollow glass (15) is tightly attached to a clamping column (36) of an aluminum alloy section (28) in a door and window sash by the force transmitted to the glass press strip (11) by the long tail rubber strip (13) in the glass;
the long tail rubber strip (13) in the glass is provided with a first long tail (62), a second long tail (63), a sixth clamping groove (64) and a side surface (65) of the head part of the long tail rubber strip; wherein,
the long tail adhesive tape (13) in the glass is connected with the glass pressing strip (11) through the matching connection of a sixth clamping head (54) and a sixth clamping groove (64), a second long tail (63) and the side surface (65) of the head of the long tail adhesive tape are tightly attached to the inner side surface (67) of the hollow glass, and the top ends of the first long tail (62) and the second long tail (63) respectively extend to the side surface of the glass heat-insulating pad (12) between the two short bulges (61);
the glass outer adhesive tape (14) is arranged on the door and window sash outer aluminum alloy section bar (29) and tightly attached to the outer side surface (66) of the hollow glass;
the method is characterized in that:
the second sealing rubber strip (4) is provided with a first contact surface (43), a fourth cavity (44), a first clamping hook (45) and a second clamping head (46); the second sealing rubber strip (4) is connected with the first heat insulation strip (18) and the aluminum alloy section (16) in the door and window frame in a clamping mode through the matching of the first hook groove (22), the first clamping hook (45), the second clamping groove (26) and the second clamping head (46), and the first contact surface (43) is tightly attached to the inner side surface (33) of the aluminum alloy section in the door and window sash; the second sealing rubber strip (4) is a soft and hard co-extrusion rubber strip, a first clamping hook (45) and a second clamping head (46) of the second sealing rubber strip (4) are made of ethylene propylene diene monomer rubber materials, and the rest part of the second sealing rubber strip (4) is made of ethylene propylene diene monomer foamed rubber materials;
a second contact surface (47), a fifth cavity (48), a second clamping hook (49) and a third clamping head (50) are arranged on the third sealing rubber strip (5); the third sealing rubber strip (5) is connected with the first heat insulation strip (18) and the aluminum alloy section (17) outside the door and window frame in a clamping mode through the matching of a second hook groove (27), a second clamping hook (49), a third clamping groove (19) and a third clamping head (50), and a second contact surface (47) is tightly attached to the outer side surface (42) of the boss; the third sealing rubber strip (5) is a soft and hard co-extrusion rubber strip, the second clamping hook (49) and the third clamping head (50) of the third sealing rubber strip (5) are made of ethylene propylene diene monomer rubber materials, the rest part of the third sealing rubber strip (5) is made of ethylene propylene diene monomer foamed rubber materials,
and the number of the first and second groups,
a third clamping hook (51), a reinforcing rib (52), a fourth clamping groove (53), a sixth clamping head (54) and a protruding end (55) are arranged on the glass pressing strip (11);
a fifth clamping groove (56), a third hooking groove (57) and a fourth clamping head (58) are formed in the glass pressing strip shockproof pad (10); the glass pressing strip shockproof pad (10) is a plastic piece, the glass pressing strip (11) is connected with the glass pressing strip shockproof pad (10) through the matching connection of a third clamping hook (51) and a third hooking groove (57), a fourth clamping head (58) on the glass pressing strip shockproof pad (10) is clamped on a fourth clamping groove (53) on the reinforcing rib (52), and the glass pressing strip shockproof pad (10) is connected with an aluminum alloy section (28) in a door and a window sash through the matching connection of a fifth clamping groove (56) and a fifth clamping head (34);
the partition plates (25) of two adjacent first heat insulation strips (18) on the door and window frame (1) divide a cavity between the two adjacent first heat insulation strips (18) into three parts;
a cavity formed between the second heat insulation strip (30) and the third heat insulation strip (31) is filled with a foaming heat insulation material (32);
wherein,
the first sealing rubber strip (3), the outer side wall body presented by the cross section of the aluminum alloy section (28) in the door and window sash, the second sealing rubber strip (4) and the outer side wall body presented by the cross section of the aluminum alloy section (16) in the door and window frame enclose a first air cavity (7);
the second sealing rubber strip (4), the outer side wall body presented by the cross section of the aluminum alloy section (28) in the door and window sash, the outer side wall body presented by the cross section of the second heat insulation strip (30), the third sealing rubber strip (5) and the outer side wall body presented by the cross section of the first heat insulation strip (18) enclose a second air cavity (8);
and the third sealing rubber strip (5), the outer side wall body presented by the cross section of the second heat insulation strip (30), the outer side wall body presented by the cross section of the door and window sash outer aluminum alloy section bar (29), the fourth sealing rubber strip (6) and the outer side wall body presented by the cross section of the door and window frame outer aluminum alloy section bar (17) enclose a third air cavity (9).
2. The four-seal energy-saving aluminum alloy door and window as claimed in claim 1, wherein: the first heat insulation strip (18) is composed of an aluminum alloy section (16) in the door and window frame and an aluminum alloy section (17) outside the door and window frame, the second heat insulation strip (30) and the third heat insulation strip (31) are composed of an aluminum alloy section (28) in the door and window sash and an aluminum alloy section (29) outside the door and window sash, and a first sealing rubber strip (3) arranged on the aluminum alloy section (28) in the door and window sash is tightly attached to the outer side surface (20) of the aluminum alloy section in the door and window frame.
3. The four-seal energy-saving aluminum alloy door and window as claimed in claim 1, wherein: and a fourth sealing rubber strip (6) arranged on the aluminum alloy section bar (17) outside the door and window frame is tightly attached to the step surface (37) of the aluminum alloy section bar (29) outside the door and window sash.
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| CN201510576810.6A CN106948715B (en) | 2015-09-12 | 2015-09-12 | A kind of four sealed energy-saving aluminum alloy doors and windows |
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| CN201510576810.6A CN106948715B (en) | 2015-09-12 | 2015-09-12 | A kind of four sealed energy-saving aluminum alloy doors and windows |
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Families Citing this family (5)
| Publication number | Priority date | Publication date | Assignee | Title |
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| CN107956368A (en) * | 2017-11-30 | 2018-04-24 | 青岛乐克来新型门窗有限公司 | Passive type aluminum alloy high-performance entry door |
| CN108222761A (en) * | 2018-01-09 | 2018-06-29 | 广东广铝铝型材有限公司 | A kind of vertical hinged door and aluminium alloy door's window system |
| CN108240157A (en) * | 2018-01-09 | 2018-07-03 | 广东广铝铝型材有限公司 | A kind of casement window system structure |
| CN110593717A (en) * | 2019-10-24 | 2019-12-20 | 北京金诺迪迈幕墙装饰工程有限公司 | Passive form is opened door and window outward and is kept warm and insulate against heat reinforcing structure and passive form and open door and window outward |
| CN111472648A (en) * | 2020-04-08 | 2020-07-31 | 扬州市新亚铝业科技有限公司 | Energy-saving efficient heat-insulation aluminum alloy door and window |
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Inventor after: Yan Yuqin Inventor after: Wang Cheng Inventor after: Fu Shuzhuang Inventor after: Cheng Hongbo Inventor after: Qin Guangjiu Inventor after: Yu Zhikai Inventor after: Diao Xunlin Inventor after: Li Xinda Inventor before: Yan Yuqin Inventor before: Li Xinda Inventor before: Cheng Hongbo Inventor before: Qin Guangjiu Inventor before: Yu Zhikai |
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Effective date of registration: 20200526 Address after: 226532 no.3-201, rugang Road, Changjiang Town, Rugao City, Nantong City, Jiangsu Province Patentee after: Jiangsu Shanghai Port Decoration Co.,Ltd. Address before: 250101 No.1000 Fengming Road, Lingang Development Zone, Jinan City, Shandong province Shandong University of Architecture Patentee before: SHANDONG JIANZHU University |
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