CN205477230U - Energy -conserving al -alloy door & window - Google Patents

Abstract

The utility model discloses an energy -conserving al -alloy door & window, including well blank glass, aluminum alloy window frame, aluminum alloy window conversion material, aluminum alloy window fan and glass line ball, aluminum alloy window frame, aluminum alloy window conversion material and aluminum alloy window fan from left to right arrange at same horizontal position in proper order, well blank glass be connected through glass line ball and aluminum alloy window fan, wherein, well blank glass adopt the bicavitary structure of three glasss, be filled with the argon gas in the hollow layer in the bicavitary structure of three glasss. In this way, the utility model provides an energy -conserving al -alloy door & window, can improve al -alloy door & window leakproofness, intensity, stability, plasticity, fire line, corrosion resistance, thermal insulation performance and aging resistance can, have better thermal -insulated effect, and the construction installation is convenient, has reduced construction cycle by a wide margin.

Description

A kind of energy-saving aluminium alloy door and window

Technical field

This utility model relates to the field of building materials, particularly relates to a kind of energy-saving aluminium alloy door and window.

Background technology

In recent years, along with living standards of the people improve constantly, the kind of door and window and derived product thereof is on the increase, and class gradually rises, such as aluminum alloy doors and windows, wood aluminum composite door and window, aluminum wood composite door and window, solid wood door and window, sunlight energy room, glass curtain wall, wooden curtain wall etc..

Along with people's awareness of saving energy improves, the good plastic-steel door and window of heat-insulating property quickly grows, and the development of aluminum alloy doors and windows receives certain obstruction.Because the heat conductivity of aluminum alloy materials is high, and the sealing property of existing aluminum alloy doors and windows is poor, and heat preservation and insulation is not ideal enough, and service life is shorter.

Utility model content

This utility model is mainly solving the technical problems that provide a kind of energy-saving aluminium alloy door and window, empty glass uses the structure in three glass two chambeies, it is filled with argon in hollow layer in the structure in three glass two chambeies, the sealing of aluminum alloy doors and windows, intensity, stability, plasticity, fire line, corrosion resistance, heat-insulating property and ageing-resistant performance can be improved, there is more preferable effect of heat insulation, and construction and installation are convenient, significantly reduce construction period.

For solving above-mentioned technical problem, the technical scheme that this utility model uses is: provide a kind of energy-saving aluminium alloy door and window, including empty glass, aluminum alloy window frame, aluminum window conversion material, aluminium alloy sash and glass depression, described aluminum alloy window frame, aluminum window conversion material and aluminium alloy sash are the most from left to right arranged in same level position, described empty glass is connected with aluminium alloy sash by glass depression, wherein, described empty glass uses the structure in three glass two chambeies, is filled with argon in the hollow layer in the structure in three glass two chambeies.

In one preferred embodiment of this utility model, described aluminum alloy window frame includes that upper window frame, lower window frame and the first multi-cavity insulated rubber strip, the first described multi-cavity insulated rubber strip are arranged between upper window frame and lower window frame.

In one preferred embodiment of this utility model, described aluminum window conversion material includes that conversion material, lower conversion material and the second multi-cavity insulated rubber strip, the second described multi-cavity insulated rubber strip are arranged between conversion material and lower conversion material.

In one preferred embodiment of this utility model, described aluminium alloy sash includes that sash, lower sash and the 3rd multi-cavity insulated rubber strip, the 3rd described multi-cavity insulated rubber strip are arranged between sash and lower sash.

In one preferred embodiment of this utility model, described the first multi-cavity insulated rubber strip, the second multi-cavity insulated rubber strip and the 3rd multi-cavity insulated rubber strip all uses the Multicarity of 35.3mm to wear article or the I type of 24mm is worn article.

In one preferred embodiment of this utility model, described the first multi-cavity insulated rubber strip, between the second multi-cavity insulated rubber strip and the cavity of the 3rd multi-cavity insulated rubber strip, all it is filled with phenol formaldehyde foam.

In one preferred embodiment of this utility model, described glass depression uses local opening-closed sectional material.

In one preferred embodiment of this utility model, described energy-saving aluminium alloy door and window also includes that EPDM adhesive tape, described EPDM adhesive tape are arranged on the position, junction of glass depression and empty glass.

The beneficial effects of the utility model are: energy-saving aluminium alloy door and window of the present utility model, empty glass uses the structure in three glass two chambeies, it is filled with argon in hollow layer in the structure in three glass two chambeies, the sealing of aluminum alloy doors and windows, intensity, stability, plasticity, fire line, corrosion resistance, heat-insulating property and ageing-resistant performance can be improved, there is more preferable effect of heat insulation, and construction and installation are convenient, significantly reduce construction period.

Accompanying drawing explanation

In order to be illustrated more clearly that the technical scheme in this utility model embodiment, in describing embodiment below, the required accompanying drawing used is briefly described, apparently, accompanying drawing in describing below is only embodiments more of the present utility model, for those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings, wherein:

Fig. 1 is the structural section figure of a preferred embodiment of this utility model energy-saving aluminium alloy door and window；

Fig. 2 is the schematic cross-section of aluminum alloy window frame in Fig. 1；

Fig. 3 is the schematic cross-section of aluminum window conversion material in Fig. 1；

Fig. 4 is the schematic cross-section of aluminium alloy sash in Fig. 1；

Being labeled as in accompanying drawing: 1, empty glass, 2, aluminum alloy window frame, 3, aluminum window conversion material, 4, aluminium alloy sash, 5, glass depression, 6, phenol formaldehyde foam, 7, EPDM adhesive tape, 11, hollow layer, 21, upper window frame, 22, lower window frame, the 23, first multi-cavity insulated rubber strip, 31, upper conversion material, 32, lower conversion material, the 33, second multi-cavity insulated rubber strip, 41, upper sash, 42, lower sash, the 43, the 3rd multi-cavity insulated rubber strip.

Detailed description of the invention

Technical scheme in this utility model embodiment will be clearly and completely described below, it is clear that described embodiment is only a part of embodiment of the present utility model rather than whole embodiments.Based on the embodiment in this utility model, all other embodiments that those of ordinary skill in the art are obtained under not making creative work premise, broadly fall into the scope of this utility model protection.

As it is shown in figure 1, this utility model embodiment includes:

A kind of energy-saving aluminium alloy door and window, including empty glass 1, aluminum alloy window frame 2, aluminum window conversion material 3, aluminium alloy sash 4 and glass depression 5, described aluminum alloy window frame 2, aluminum window conversion material 3 and aluminium alloy sash 4 are the most from left to right arranged in same level position, described empty glass 1 is connected with aluminium alloy sash 4 by glass depression 5, wherein, described empty glass 1 uses the structure in three glass two chambeies, is filled with argon in the hollow layer 11 in the structure in three glass two chambeies.

As shown in Figures 2 to 4, described aluminum alloy window frame 2 includes upper window frame 21, lower window frame 22 and the first multi-cavity insulated rubber strip 23, and the first described multi-cavity insulated rubber strip 23 is arranged between upper window frame 21 and lower window frame 22；Described aluminum window conversion material 3 includes conversion material 31, lower conversion material 32 and the second multi-cavity insulated rubber strip 33, and the second described multi-cavity insulated rubber strip 33 is arranged between conversion material 31 and lower conversion material 32；Described aluminium alloy sash 4 includes sash 41, lower sash 42 and the 3rd multi-cavity insulated rubber strip 43, and the 3rd described multi-cavity insulated rubber strip 43 is arranged between sash 41 and lower sash 42.

Wherein, first described multi-cavity insulated rubber strip the 23, second multi-cavity insulated rubber strip 33 and the 3rd multi-cavity insulated rubber strip 43 all use the Multicarity of 35.3mm to wear article or the I type of 24mm is worn article；All it is filled with phenol formaldehyde foam 6 between described first multi-cavity insulated rubber strip the 23, second multi-cavity insulated rubber strip 33 and the cavity of the 3rd multi-cavity insulated rubber strip 43, can effectively improve aluminium alloy extrusions K value.

Further, described glass depression 5 uses local opening-closed sectional material, compared with traditional opening line ball, can preferably bear the wind load effect to the horizontal force that glass produces.

Further, described energy-saving aluminium alloy door and window also includes that EPDM adhesive tape 7, described EPDM adhesive tape 7 are arranged on the position, junction of glass depression 5 and empty glass 1.

Energy-saving aluminium alloy door and window of the present utility model is compared and is had the advantage that with prior art

1, glass uses three glass two chamber 5 (6)+9Ar+5 (6)+9Ar+5 (6) empty glass, hollow layer applying argon gas, and glass hollow needs warm limit to process when closing sheet；

2, window frame, sash and conversion material wear bar position all in same level position, make this system have more preferable effect of heat insulation；

3, wear the Multicarity of strip adoption 35.3mm to wear the I type of bar or 24mm and wear bar, wear filled phenolic foam between the cavity between bar, can effectively improve aluminium alloy extrusions K value；

4, glass uses, with aluminum alloy trough port part, the EPDM adhesive tape lengthened, and improves the effect of heat insulation of whole window；

5, glass bottom arranges usual hard PVC cushion block, reduces the transmission of heat, also has the most only torr effect to glass plate；

6, aluminium alloy line ball uses local opening-closed sectional material, compared with traditional opening line ball, can preferably bear the wind load effect to the horizontal force that glass produces；

7, Hardware fitting uses the combination configuration of hinge and 4 locks, and in the case of window type is little, hinge is readily modified as double leval jib；

By above-mentioned 7 way requirements, the window type of this system can be made to meet the requirement that K value is not more than 2.2.

In sum, energy-saving aluminium alloy door and window of the present utility model, empty glass uses the structure in three glass two chambeies, it is filled with argon in hollow layer in the structure in three glass two chambeies, the sealing of aluminum alloy doors and windows, intensity, stability, plasticity, fire line, corrosion resistance, heat-insulating property and ageing-resistant performance can be improved, there is more preferable effect of heat insulation, and construction and installation are convenient, significantly reduce construction period.

The foregoing is only embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every equivalent structure utilizing this utility model description to be made or equivalence flow process conversion; or directly or indirectly it is used in other relevant technical field, the most in like manner it is included in scope of patent protection of the present utility model.

Claims (8)

1. an energy-saving aluminium alloy door and window, it is characterized in that, including empty glass, aluminum alloy window frame, aluminum window conversion material, aluminium alloy sash and glass depression, described aluminum alloy window frame, aluminum window conversion material and aluminium alloy sash are the most from left to right arranged in same level position, described empty glass is connected with aluminium alloy sash by glass depression, wherein, described empty glass uses the structure in three glass two chambeies, is filled with argon in the hollow layer in the structure in three glass two chambeies.

Energy-saving aluminium alloy door and window the most according to claim 1, it is characterised in that described aluminum alloy window frame includes that upper window frame, lower window frame and the first multi-cavity insulated rubber strip, the first described multi-cavity insulated rubber strip are arranged between upper window frame and lower window frame.

Energy-saving aluminium alloy door and window the most according to claim 2, it is characterised in that described aluminum window conversion material includes that conversion material, lower conversion material and the second multi-cavity insulated rubber strip, the second described multi-cavity insulated rubber strip are arranged between conversion material and lower conversion material.

Energy-saving aluminium alloy door and window the most according to claim 3, it is characterised in that described aluminium alloy sash includes that sash, lower sash and the 3rd multi-cavity insulated rubber strip, the 3rd described multi-cavity insulated rubber strip are arranged between sash and lower sash.

Energy-saving aluminium alloy door and window the most according to claim 4, it is characterised in that described the first multi-cavity insulated rubber strip, the second multi-cavity insulated rubber strip and the 3rd multi-cavity insulated rubber strip all uses the Multicarity of 35.3mm to wear article or the I type of 24mm is worn article.

Energy-saving aluminium alloy door and window the most according to claim 5, it is characterised in that described the first multi-cavity insulated rubber strip, be all filled with phenol formaldehyde foam between the second multi-cavity insulated rubber strip and the cavity of the 3rd multi-cavity insulated rubber strip.

Energy-saving aluminium alloy door and window the most according to claim 1, it is characterised in that described glass depression uses local opening-closed sectional material.

Energy-saving aluminium alloy door and window the most according to claim 1, it is characterised in that described energy-saving aluminium alloy door and window also includes that EPDM adhesive tape, described EPDM adhesive tape are arranged on the position, junction of glass depression and empty glass.