CN112112514A - High-cost-performance high-energy-saving aluminum alloy door and window - Google Patents

High-cost-performance high-energy-saving aluminum alloy door and window Download PDF

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Publication number
CN112112514A
CN112112514A CN202011173300.1A CN202011173300A CN112112514A CN 112112514 A CN112112514 A CN 112112514A CN 202011173300 A CN202011173300 A CN 202011173300A CN 112112514 A CN112112514 A CN 112112514A
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CN
China
Prior art keywords
bayonet
aluminum alloy
window
heat insulation
section
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Pending
Application number
CN202011173300.1A
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Chinese (zh)
Inventor
仵联利
王怡
姚艳艳
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Gaoke Building Materials Xianyang Aluminum Technology Co ltd
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Gaoke Building Materials Xianyang Aluminum Technology Co ltd
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Application filed by Gaoke Building Materials Xianyang Aluminum Technology Co ltd filed Critical Gaoke Building Materials Xianyang Aluminum Technology Co ltd
Priority to CN202011173300.1A priority Critical patent/CN112112514A/en
Publication of CN112112514A publication Critical patent/CN112112514A/en
Pending legal-status Critical Current

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    • EFIXED CONSTRUCTIONS
    • E06DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
    • E06BFIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
    • E06B3/00Window sashes, door leaves, or like elements for closing wall or like openings; Layout of fixed or moving closures, e.g. windows in wall or like openings; Features of rigidly-mounted outer frames relating to the mounting of wing frames
    • E06B3/04Wing frames not characterised by the manner of movement
    • E06B3/263Frames with special provision for insulation
    • E06B3/26301Frames with special provision for insulation with prefabricated insulating strips between two metal section members
    • EFIXED CONSTRUCTIONS
    • E06DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
    • E06BFIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
    • E06B3/00Window sashes, door leaves, or like elements for closing wall or like openings; Layout of fixed or moving closures, e.g. windows in wall or like openings; Features of rigidly-mounted outer frames relating to the mounting of wing frames
    • E06B3/04Wing frames not characterised by the manner of movement
    • E06B3/263Frames with special provision for insulation
    • E06B2003/26349Details of insulating strips
    • E06B2003/2635Specific form characteristics
    • EFIXED CONSTRUCTIONS
    • E06DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
    • E06BFIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
    • E06B3/00Window sashes, door leaves, or like elements for closing wall or like openings; Layout of fixed or moving closures, e.g. windows in wall or like openings; Features of rigidly-mounted outer frames relating to the mounting of wing frames
    • E06B3/04Wing frames not characterised by the manner of movement
    • E06B3/263Frames with special provision for insulation
    • E06B2003/26349Details of insulating strips
    • E06B2003/26369Specific material characteristics

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  • Engineering & Computer Science (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Door And Window Frames Mounted To Openings (AREA)

Abstract

The invention relates to a high-cost-performance high-energy-saving aluminum alloy door and window, which comprises a window frame, a mullion, an opening window frame, glass and hardware, wherein the window frame comprises an L-shaped bridge-cut-off aluminum alloy section, the opening window frame section comprises a Z-shaped bridge-cut-off aluminum alloy section, and the mullion section comprises a T-shaped mullion bridge-cut-off aluminum alloy section2.k)]The effect requirement of (1). The door and window adopts an ingenious design, meets the requirements of energy conservation and strength, realizes the effects of improving the performance of door and window products, increasing the cost slightly and being beneficial to market popularization.

Description

High-cost-performance high-energy-saving aluminum alloy door and window
Technical Field
The invention relates to the technical field of building industry, in particular to an aluminum alloy door and window with high cost performance and energy saving.
Background
With the continuous improvement of the building energy-saving requirement, the requirement of the door and window industry is the water rising ship height. The existing plastic doors and windows and aluminum alloy doors and windows in the market can meet the energy-saving requirement, but the cost performance difference is large. Aluminum alloy doors and windows utilize the continuous increase of heat insulating strips to meet the energy-saving requirement, and plastic steel doors and windows continuously increase the section size and the number of closed chambers to meet the market requirement, but the cost increase is obvious. The cost of the plastic steel window is increased by about 8% -20%, and the cost of the aluminum alloy window is increased by more than 12%.
Disclosure of Invention
The invention aims at the problem of providing the high-cost-performance and energy-saving aluminum alloy door and window, which can meet the requirements of energy conservation and strength and does not increase much economic cost, and is very necessary.
The technical solution of the invention is as follows: the utility model provides an aluminum alloy door and window of high-performance price ratio high energy-saving, includes window frame, well club, opens window frame, glass, hardware, four window frames about the door and window outer frame is including from top to bottom, window frame section bar includes L type bridge cut-off aluminum alloy ex-trusions, and two window frames about the club is connected to horizontal being equipped with one on the upper side in the middle of the outer frame is inside, and the bottom window frame is connected to vertical being equipped with one well club in the middle of horizontal well club, well club section bar includes T type bridge cut-off aluminum alloy ex-trusions, from this door and window is divided into the triplex, goes up fixed window, and the window is opened on the right side, opens the window on a left side, installs glass in the window respectively, open the window and form by four upper and lower left and right sides opening window.
L type bridge cut-off aluminum alloy ex-trusions includes aluminum alloy ex-trusions A, aluminum alloy ex-trusions B, heat insulating strip C, latticed plastic steel ex-trusions, aluminum alloy ex-trusions A one side is equipped with bayonet E3, bayonet F1, bayonet E1 from top to bottom, aluminum alloy ex-trusions B is equipped with bayonet E4, bayonet F2, bayonet E2 from top to bottom at corresponding position, be equipped with heat insulating strip C between bayonet E3 and bayonet E4, be equipped with heat insulating strip C between bayonet E1 and bayonet E2, aluminum alloy ex-trusions A, aluminum alloy ex-trusions B and two heat insulating strips C constitute the enclosure space from this, and latticed plastic steel ex-trusions pass through bayonet F1 and bayonet F2 and.
The Z-shaped bridge-cut-off aluminum alloy profile comprises an aluminum alloy profile A1, an aluminum alloy profile B1, a heat insulation strip C1 and a latticed plastic steel profile, wherein one side of the aluminum alloy profile A1 is provided with a bayonet E3, a bayonet F1 and a bayonet E1 from top to bottom, the aluminum alloy profile B1 is provided with a bayonet E4, a bayonet F2 and a bayonet E2 from top to bottom at corresponding positions, the heat insulation strip C is arranged between the bayonet E3 and the bayonet E4, the heat insulation strip C1 is arranged between the bayonet E1 and the bayonet E2, the aluminum alloy profile A1, the aluminum alloy profile B1, the heat insulation strip C and the heat insulation strip C1 form a closed space, and the latticed plastic steel profile is arranged in the closed space through the bayonet F1.
The T-shaped mullion broken bridge aluminum alloy profile comprises an aluminum alloy profile A2, an aluminum alloy profile B2, a heat insulation strip C and a latticed plastic steel profile, wherein one side of the aluminum alloy profile A2 is provided with a bayonet E3, a bayonet F1 and a bayonet E1 from top to bottom, the aluminum alloy profile B2 is provided with a bayonet E4, a bayonet F2 and a bayonet E2 from top to bottom at corresponding positions, the heat insulation strip C is arranged between the bayonet E3 and the bayonet E4, the heat insulation strip C is arranged between the bayonet E1 and the bayonet E2, the aluminum alloy profile A2, the aluminum alloy profile B2 and the two heat insulation strips C form a closed space, and the latticed plastic steel profile is arranged in the space through the bayonet F1 and the bayonet F2.
Deviation under the heat insulation strips C is not more than 0.05 +/-0.01 mm.
Deviation under the heat insulation strips C1 is not more than 0.05 +/-0.01 mm.
The deviation on the latticed plastic steel section is not more than 0.05 +/-0.01 mm.
The invention divides the cavity in the middle of the heat insulating strip by adopting the mode of combining notch design and interference fit in the middle of the heat insulating strip of the energy-saving aluminum door and window, uses PVC material to divide the cavity into a plurality of small closed cavities, and can enable the whole window to achieve the energy-saving coefficient of 1.9[ W/(m/(m) through software calculation2.k)]The effect requirement of (1). The invention has the advantages that the existing processing equipment is not changed, the ingenious design is adopted, the problem of cost increase of doors and windows caused by the continuously increased specification of the heat insulation strips is solved, the requirements of energy saving and strength are met, a lot of economic cost is not increased, the performance of the door and window products is improved, meanwhile, the cost increase is slight, and the market popularization is facilitated.
Drawings
FIG. 1 is a schematic view of the structure of the present invention
FIG. 2 is a sectional view taken along line A-A of FIG. 1
FIG. 3 is a sectional view taken along line B-B of FIG. 1
FIG. 4 is a partial enlarged view of the L-shaped bridge-cut aluminum alloy section bar of the present invention
FIG. 5 is a partial enlarged view of the Z-shaped bridge-cut aluminum alloy section bar of the present invention
FIG. 6 is a partial enlarged view of a T-shaped mullion bridge-cut aluminum alloy profile of the present invention.
Detailed Description
In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained by combining the specific drawings.
The following description "upper, lower, left and right" parts are expressed by using a picture as an object, where the upper part is an upper part displayed by the picture, and the lower part is a lower part displayed by the picture, where the left part is a left part displayed by the picture and the right part is a right part displayed by the picture, and are used for description only.
Referring to fig. 1, an aluminum alloy door and window with high cost performance and energy saving performance comprises window frames 1, mullions 2, opening window frames 3, glass 22 and hardware 23, wherein the door and window outer frame comprises an upper window frame, a lower window frame, a left window frame, a right window frame, a left window frame, a bottom window frame, a right mullion, a T-shaped mullion bridge-cut aluminum alloy section 21, a mullion 2, three parts of the door and window, an upper fixed window, a right fixed window, a left opening window, glass 22 respectively installed in the window, the opening window is formed by connecting the upper opening window frame, the right opening window frame and the left opening window frame 3, the opening window frame 3 section comprises a Z-shaped bridge-shaped aluminum alloy section 20, the opening window is connected with the window frame 1 through hardware 23.
As shown in fig. 4, the L-shaped bridge-cut-off aluminum alloy profile 19 includes an aluminum alloy profile a4, an aluminum alloy profile B5, a heat insulation strip C16, and a grid-shaped plastic-steel profile 17, wherein one side of the aluminum alloy profile a4 is provided with a bayonet E312, a bayonet F114, and a bayonet E110 from top to bottom, the aluminum alloy profile B5 is provided with a bayonet E413, a bayonet F215, and a bayonet E211 at corresponding positions from top to bottom, a heat insulation strip C16 is provided between the bayonet E312 and the bayonet E413, a heat insulation strip C16 is provided between the bayonet E110 and the bayonet E211, the aluminum alloy profile a4, the aluminum alloy profile B5, and two heat insulation strips C16 form a closed space, and the grid-shaped plastic-steel profile 17 is disposed in the closed. In the implementation, the molded latticed plastic-steel profile 17 is firstly inserted into the bayonets F114 and F215 at the middle positions of the aluminum alloy profile A4 and the aluminum alloy profile B5, and can linearly slide without being fastened. And then, a mature heat insulation strip C16 penetrating process is used, an upper heat insulation strip C16 and a lower heat insulation strip C16 penetrate into the corresponding bayonets E110, E211, E312 and E413, pressure is applied to heat insulation heads of the bayonets E110, E211, E312 and E413 through a roller in a compounding process, the aluminum profile at the part generates local deformation, the penetrated heat insulation strips C16 are compressed, and meanwhile, the latticed plastic steel profile 17, the aluminum alloy profile A4 and the aluminum alloy profile B5 are also partially compressed, so that the combination of the profiles is realized.
As shown in fig. 5, the Z-shaped bridge-cut-off aluminum alloy profile 20 includes an aluminum alloy profile a 16, an aluminum alloy profile B17, a heat insulation strip C16, a heat insulation strip C118, and a grid-shaped plastic steel profile 17, wherein one side of the aluminum alloy profile a 16 is provided with a bayonet E312, a bayonet F114, and a bayonet E110 from top to bottom, the aluminum alloy profile B17 is provided with a bayonet E413, a bayonet F215, and a bayonet E211 from top to bottom at corresponding positions, a heat insulation strip C16 is arranged between the bayonet E312 and the bayonet E413, a heat insulation strip C18 is arranged between the bayonet E110 and the bayonet E211, the aluminum alloy profile a 14, the aluminum alloy profile B15, the heat insulation strip C16, and the heat insulation strip C118 form a closed space, and the grid-shaped plastic steel profile 17 is arranged. In the implementation, the molded latticed plastic-steel profile 17 is firstly inserted into the bayonets F114 and F215 at the middle positions of the aluminum alloy profile A16 and the aluminum alloy profile B17, and can linearly slide without being fastened. And then, a mature heat insulation strip C16 and a heat insulation strip C118 are used for penetrating into corresponding bayonets E110, E211, E312 and E413, the heat insulation strip C16 and the heat insulation strip C118 are penetrated into the corresponding bayonets E110, E211, E312 and E413, pressure is applied to heat insulation heads of the bayonets E110, E211, E312 and E413 through a composite process by using rollers, the aluminum profile at the part generates local deformation, the penetrated heat insulation strip C16 and the heat insulation strip C118 are compressed, and meanwhile, the latticed plastic steel profile 17, the aluminum alloy profile A16 and the aluminum alloy profile B17 are also compressed, so that the combination of the profiles is realized.
As shown in fig. 6, the T-shaped muntin bridge-cut-off aluminum alloy profile 21 comprises an aluminum alloy profile a 28, an aluminum alloy profile B29, a heat insulation strip C16 and a latticed plastic-steel profile 17, wherein one side of the aluminum alloy profile a 28 is provided with a bayonet E312, a bayonet F114 and a bayonet E110 from top to bottom, the aluminum alloy profile B29 is provided with a bayonet E413, a bayonet F215 and a bayonet E211 from top to bottom at corresponding positions, the heat insulation strip C16 is arranged between the bayonet E312 and the bayonet E413, the heat insulation strip C16 is arranged between the bayonet E110 and the bayonet E211, the aluminum alloy profile a 28, the aluminum alloy profile B29 and the two heat insulation strips C16 form a closed space, and the latticed plastic-steel profile 17 is arranged in the space through the bayonet F114. In the implementation, the molded latticed plastic-steel profile 17 is firstly inserted into the bayonets F114 and F215 at the middle positions of the aluminum alloy profile A28 and the aluminum alloy profile B29, and can linearly slide without being fastened. And then, a mature heat insulation strip C16 penetrating process is used, an upper heat insulation strip C16 and a lower heat insulation strip C16 penetrate into the corresponding bayonets E110, E211, E312 and E413, pressure is applied to heat insulation heads of the bayonets E110, E211, E312 and E413 through a roller in a compounding process, the aluminum profile at the part generates local deformation, the penetrated heat insulation strips C16 are compressed, and meanwhile, the latticed plastic steel profile 17, the aluminum alloy profile A28 and the aluminum alloy profile B29 are also partially compressed, so that the combination of the profiles is realized.
When a purchasing standard is established, the lengths of the heat insulation bars C16 and the heat insulation bars C118 are purchased according to the lower deviation of 0.05 mm, the length of the latticed plastic-steel section 17 is purchased according to the upper deviation of 0.05 mm, and interference fit of about 0.1 mm is generated after the interference fit, so that the latticed plastic-steel section 17 can be firmly connected with the aluminum alloy section A4\ aluminum alloy section B5, the aluminum alloy section A16 \ aluminum alloy section B17 and the aluminum alloy section A28 \ aluminum alloy section B29.
The invention creatively utilizes the bayonets F114 and F215 and the rolling process to fix the latticed plastic-steel section 17 into the cavity, and divides the large cavity at the middle parts of the heat insulating strip C16 and the heat insulating strip C118 into a plurality of small closed cavities, thereby playing the roles of energy saving and heat preservation. The plastic steel section is one third of the cost of the nylon heat insulation strip material, the heat insulation effect is slightly better than that of the nylon material, the cost of the finished window is influenced by about 1% by adopting the latticed plastic steel section 17 for the finished window with the same heat insulation coefficient, and the cost is improved by about 10% by adopting the nylon heat insulation strip for the finished window. On the premise of meeting the national building energy-saving requirement, the bridge-cut-off aluminum alloy window adopting the latticed plastic-steel section 17 is more favorable for the requirements of common people and is more suitable for large-area popularization.
The foregoing has described the general principles and principal features of the invention and its advantages. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. The utility model provides an aluminum alloy door and window of high performance-price ratio high energy-saving, includes window frame (1), well club (2), opens window frame (3), glass (22), hardware (23), its characterized in that: four window frames (1) about the door and window outer frame is including about, the window frame section bar includes L type bridge cut-off aluminium alloy ex-trusions (19), and two window frames (1) about connecting of club (2) about transversely being equipped with in the middle of the outer frame is inside on the upper left, and bottom window frame (1) is connected in club (2) middle vertical being equipped with in one in horizontal club (2), club (2) section bar includes club bridge cut-off aluminium alloy ex-trusions (21) in the T type, from this door and window is divided into the triplex, including last fixed window, the fixed window in the right side, open the window on a left side, install glass (22) respectively in the window, open the window and open window frame (3) by four about from top to bottom and connect and form, open window frame (3) section bar and include Z type bridge cut-off aluminium alloy ex-trusions (20), open the window and.
2. The al-alloy door & window of claim 1, wherein: the L-shaped bridge cut-off aluminum alloy section (19) comprises an aluminum alloy section A (4), an aluminum alloy section B (5), a heat insulation strip C (16) and a latticed plastic steel section (17), one side of the aluminum alloy section A (4) is provided with a bayonet E3(12), a bayonet F1(14) and a bayonet E1(10) from top to bottom, the aluminum alloy section B (5) is provided with a bayonet E4(13), a bayonet F2(15) and a bayonet E2(11) from top to bottom at corresponding positions, a heat insulation strip C (16) is arranged between the bayonet E3(12) and the bayonet E4(13), and a heat insulation strip C (16) is arranged between the bayonet E1(10) and the bayonet E2(11), the aluminum alloy section A (4), the aluminum alloy section B (5) and the two heat insulation strips C (16) form a closed space, and the grid-shaped plastic-steel section (17) is arranged in the space through the bayonet F1(14) and the bayonet F2 (15).
3. The al-alloy door & window of claim 1, wherein: the Z-shaped bridge-cut-off aluminum alloy section (20) comprises an aluminum alloy section A1(6), an aluminum alloy section B1(7), a heat insulation strip C (16), a heat insulation strip C1(18) and a latticed plastic-steel section (17), one side of the aluminum alloy section A1(6) is provided with a bayonet E3(12), a bayonet F1(14) and a bayonet E1(10) from top to bottom, the aluminum alloy section B1(7) is provided with a bayonet E4(13), a bayonet F2(15) and a bayonet E2(11) from top to bottom at corresponding positions, a heat insulation strip C (16) is arranged between the bayonet E3(12) and the bayonet E4(13), a heat insulation strip C1(18) is arranged between the bayonet E1(10) and the bayonet E2(11), an aluminum alloy section A1(4), an aluminum alloy section B1(5), a heat insulation strip C (16) and a heat insulation strip C1(18) form a closed space, and the grid-shaped plastic steel section (17) is arranged in the space through the bayonet F1(14) and the bayonet F2 (15).
4. The al-alloy door & window of claim 1, wherein: the T-shaped mullion bridge-cut-off aluminum alloy section (21) comprises an aluminum alloy section A2(8), an aluminum alloy section B2(9), a heat insulation strip C (16) and a latticed plastic steel section (17), one side of the aluminum alloy section A2(8) is provided with a bayonet E3(12), a bayonet F1(14) and a bayonet E1(10) from top to bottom, the aluminum alloy section B2(9) is provided with a bayonet E4(13), a bayonet F2(15) and a bayonet E2(11) from top to bottom at corresponding positions, a heat insulation strip C (16) is arranged between the bayonet E3(12) and the bayonet E4(13), a heat insulation strip C (16) is arranged between the bayonet E1(10) and the bayonet E2(11), an aluminum alloy section A2(8), an aluminum alloy section B2(9) and two heat insulation strips C (16) form a closed space, and a grid-shaped plastic steel section (17) is arranged in the space through a bayonet F1(14) and a bayonet F2 (15).
5. A cost effective energy efficient aluminum alloy door and window according to claim 2 or 3 or 4 wherein: the deviation under the heat insulation strip C (16) is not more than 0.05 +/-0.01 mm.
6. The aluminum alloy door and window with high cost performance and energy saving performance of claim 3, wherein: the deviation under the heat insulation strips C1(18) is not more than 0.05 +/-0.01 mm.
7. A cost effective energy efficient aluminum alloy door and window according to claim 2 or 3 or 4 wherein: the deviation of the latticed plastic steel section (17) is not more than 0.05 +/-0.01 mm.
CN202011173300.1A 2020-10-28 2020-10-28 High-cost-performance high-energy-saving aluminum alloy door and window Pending CN112112514A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202011173300.1A CN112112514A (en) 2020-10-28 2020-10-28 High-cost-performance high-energy-saving aluminum alloy door and window

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202011173300.1A CN112112514A (en) 2020-10-28 2020-10-28 High-cost-performance high-energy-saving aluminum alloy door and window

Publications (1)

Publication Number Publication Date
CN112112514A true CN112112514A (en) 2020-12-22

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN202011173300.1A Pending CN112112514A (en) 2020-10-28 2020-10-28 High-cost-performance high-energy-saving aluminum alloy door and window

Country Status (1)

Country Link
CN (1) CN112112514A (en)

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