CN204984108U - Energy -conserving al -alloy door & window - Google Patents

Abstract

The utility model provides an energy -conserving al -alloy door & window, frame, an outline and the 2nd outline in first interior frame, second to it is equipped with heat insulating strip A and heat insulating strip B respectively to go up between the frame, in the second frame with still be connected with glass between the 2nd outline, heat insulating strip A with form isobaric chamber between the heat insulating strip B, heat insulating strip A with heat insulating strip B includes I shape heat insulating strip and two I type heat insulating strips, two the both sides of frame and outline's both sides including I type heat insulating strip imbeds respectively, the embedding of I shape heat insulating strip is two I type heat insulating strip center line position, it is above it has the bubble cotton all to fill in the cavity that frame and heat insulating strip formed, glass is three glasss, two chamber cavity tempering glass. This technical scheme improves from door and window frame and aspects such as glass structure and combination, has realized the whole energy -conserving coefficient of door and window <= 1.3.

Description

A kind of energy-saving aluminium alloy door and window

Technical field

The utility model relates to door and window fields, refers in particular to a kind of high energy-conservation alumium alloy door and window.

Background technology

Along with the popularization of ecological, environmental protective concept, building field also improves the requirement to building materials materials ecological, environmental protective.Humiture in building is suitable for, cool in summer and warm in winter, reduce the dependence to electronic products such as air-conditionings, not only need rational architectural design, the building materials of environmental protection and energy saving, also need to make door and window also reach high fractional energy savings.

In prior art, usually improve door and window fractional energy savings by doorframe and window frame material and to the improvement of glass, reduce indoor and outdoor temperature and exchange.

And under the present art, the technology of glass aspect is very ripe, from glass material thickness aspect, be difficult to carry out large lifting again to the fractional energy savings of door and window.

And doorframe and window frame material aspect, although can use different materials, technology is also comparatively ripe, and optional excellent material is limited, and improves material quality and also improve along with cost.

Above aspects all governs the further raising of doorframe and window frame fractional energy savings.

Utility model content

The utility model proposes a kind of energy-saving aluminium alloy door and window, improve from doorframe and window frame and the aspect such as glass structure and combination, make its whole energy coefficient≤1.3.

The technical solution of the utility model is achieved in that

A kind of energy-saving aluminium alloy door and window, its structure comprises:

Comprise frame in frame in first, second, the first outer rim and the second outer rim, heat insulating strip A is embedded with between frame and described first outer rim in described first, heat insulating strip B is embedded with between frame and described second outer rim in described second, also be connected with glass between frame and described second outer rim in described second, between described heat insulating strip A and described heat insulating strip B, form equivalent pressure cavity;

Described heat insulating strip A and described heat insulating strip B comprises I shape heat insulating strip and two I type heat insulating strips, two described I type heat insulating strips are embedded in the both sides of interior frame and the both sides of outer rim respectively, and described I shape heat insulating strip is embedded in two described I type heat insulating strip position of center line;

In described first, in frame, second, frame, the first outer rim and the second outer rim are cavity structure, are all filled with foam in its cavity; All foam is filled with in space between the I shape heat insulating strip of described heat insulating strip A and described heat insulating strip B and two I type heat insulating strips;

Described glass is three glass two chamber hollow tempered glass.

In technique scheme, described heat insulating strip A and described heat insulating strip B is nylon heat-insulating strip, and the length of described I type heat insulating strip is 41mm, and in described first, scuncheon to the first outer rim outside width reaches 83mm.

In technique scheme, be provided with 5 cavity body structures between outer frame body altogether in described door and window, and be filled with foam, effectively can stop the transmission of heat.

Owing to taking isotherm to design, namely the heat insulating strip of door and window housing and sash is in same center line, and have employed enough wide 41mm heat insulating strip, all makes technique scheme obtain best effect of heat insulation.

In technique scheme, in described second, the end of frame and the position of described glass contact are provided with sealing joint strip in glass, the end of described second outer rim and the position of described glass contact are provided with glass external seal glue adhesive tape, foam cushion is provided with between described heat insulating strip B and described glass, and the complete coated glass edge of this foam cushion one week.

In the prior art, even if window frame and glass contacting portion are provided with foam cushion, often just arrange on limit, the window frame left and right sides, and can not complete coated glass, but complete coated glass can play better sealing, improves effect of heat insulation further.

In technique scheme, be provided with equivalent pressure cavity adhesive tape in described equivalent pressure cavity, described equivalent pressure cavity adhesive tape one end is connected with described heat insulating strip A, and its other end is connected with described heat insulating strip B.

In technique scheme, in described first, in frame and described second, between frame, junction is provided with interior frame sealing joint strip, and between described first outer rim and described second outer rim, junction is provided with outer rim sealing joint strip.

In order to improve energy-efficient performance further, the technical program eliminates drain hole design, changes three seals into.Structure of aluminum doors and windows design adopts equal pressure principle, improves door and window waterproof sealing performance.Owing to being equipped with 3 road caulking gum adhesive tape sealing between door and window sash and window frame, sealing rubber strip pressure after sash locking is tight, and middle cavity is easy to form equivalent pressure cavity, therefore improves the sealing performance of door and window, certainly also proposes requirements at the higher level to level of processing.

In technique scheme, described sealing joint strip preferably adopts Ethylene Propylene Terpolymer EPDM thermoset rubber or silicon rubber, and its elasticity better, UV resistant, ageing-resistant, permanent deformation is little, anti-fouling performance is excellent.

Further, the large encirclement design of glazing compound strip adoption, adopts thicker adhesive tape to increase energy-saving effect.

In technique scheme, preferably adopt 6mmLow-E+16TGI to warm up limit (Ar)+4mmLow-E+16TGI and warm up limit (Ar)+4mm hollow tempered glass, three glass two chamber hollows.Former of two silver low radiation adopts French Saint-Gobain (Saint-Goban), and for reducing glass weight, inner employing 4mm, fills 95%Ar.The k value of glass reaches 0.6W/ (m2K).

In sum, by increasing section bar width, widening heat insulating strip, increasing the cavity number of plies and fill foam, take isotherm design, eliminate drain hole, large encirclement design etc. means are adopted between doorframe and window frame and glass, the fractional energy savings of common raising door and window entirety, finally make this serial door and window energy saving efficiency reach 1.27, considerably beyond market, existing door and window fractional energy savings, completes the R&D target of predetermined energy saving efficiency≤1.3.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the structural representation of the utility model alumium alloy door and window.

Accompanying drawing indicates: 1, frame in first, frame in 2, second, the 3, first outer rim, 4, the second outer rim, 5, heat insulating strip A, 6, heat insulating strip B, 7, glass, 8, sealing joint strip in glass, 9, glass external seal adhesive tape, 10, foam cushion, 11, equivalent pressure cavity adhesive tape, 12, interior frame sealing joint strip, 13, outer rim sealing joint strip, 501, I type heat insulating strip, 502, I shape heat insulating strip.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

With reference to Fig. 1, energy-saving aluminium alloy door and window of the present utility model, to comprise in first frame 2, first outer rim 3 and the second outer rim 4 in frame 1, second.In first, in frame 1, second, frame 2, first outer rim 3 and the second outer rim 4 are cavity structure, are all filled with foam in its cavity.

Be embedded with heat insulating strip A5 between frame 1 and the first outer rim 3 in first, in second, between frame 2 and the second outer rim 4, be embedded with heat insulating strip B6.Heat insulating strip A5 and heat insulating strip B6 comprises I shape heat insulating strip 502 and two I type heat insulating strips 501.Two I type heat insulating strips 501 are embedded in the both sides of interior frame and the both sides of outer rim respectively.Foam is filled with respectively in cavity between I shape heat insulating strip 502 and I type heat insulating strip 501.

The length of I type heat insulating strip 501 is preferably 41mm, reaches 83mm to the first outer rim 2 outside width in described first inside frame 1.I shape heat insulating strip 502 is embedded in two I type heat insulating strip 501 position of center line.

Glass 7 is also connected with between frame 2 and the second outer rim 4 in second.Equivalent pressure cavity is formed between heat insulating strip A5 and heat insulating strip B6.Equivalent pressure cavity adhesive tape 11 is provided with in equivalent pressure cavity.Equivalent pressure cavity adhesive tape 11 one end is connected with heat insulating strip A5, and its other end is connected with heat insulating strip B6.

In the present embodiment, heat insulating strip A5 and heat insulating strip B6 is preferably nylon heat-insulating strip.The position that in second, the end of frame 2 contacts with glass 7 is provided with sealing joint strip 8 in glass.The position that the end of the second outer rim 4 contacts with glass 7 is provided with glass external seal glue adhesive tape 9.Foam cushion 10 is provided with, the coated glass of foam cushion 10 one week between heat insulating strip B6 and glass 7.In first, in frame 1 and second, between frame 2, junction is provided with junction between interior frame sealing joint strip 12, first outer rim 3 and the second outer rim 4 and is provided with outer rim sealing joint strip 13.

Alumium alloy door and window of the present utility model are provided with heat insulating strip A5 and heat insulating strip B6 between interior frame and outer rim, have intercepted the heat transfer of aluminium; Heat insulating strip A5 and heat insulating strip B6 comprises I shape heat insulating strip 502 and two I type heat insulating strips 501.Two I type heat insulating strips 501 are embedded in the both sides of interior frame and the both sides of outer rim respectively.I shape heat insulating strip 502 is embedded in two I type heat insulating strip 501 position of center line, and I shape heat insulating strip 502 not only plays the intensity effect of raising two I type heat insulating strips 501, also because it is in the middle of the isotherm of frame, is reduced to by heat transfer minimum.

In technique scheme, be provided with 5 cavity body structures between outer frame body altogether in described door and window, and be filled with foam, effectively can stop the transmission of heat.

Owing to taking isotherm to design, namely the heat insulating strip of door and window housing and sash is in same center line, and have employed enough wide 41mm heat insulating strip, all makes technique scheme obtain best effect of heat insulation.

In technique scheme, described sealing joint strip preferably adopts Ethylene Propylene Terpolymer EPDM thermoset rubber or silicon rubber, and its elasticity better, UV resistant, ageing-resistant, permanent deformation is little, anti-fouling performance is excellent.

Further, the large encirclement design of glazing compound strip adoption, adopts thicker adhesive tape to increase energy-saving effect.

In technique scheme, preferably adopt 6mmLow-E+16TGI to warm up limit (Ar)+4mmLow-E+16TGI and warm up limit (Ar)+4mm hollow tempered glass, three glass two chamber hollows.Former of two silver low radiation adopts French Saint-Gobain (Saint-Goban), and for reducing glass weight, inner employing 4mm, fills 95%Ar.The k value of glass reaches 0.6W/ (m2K).

In sum, by increasing section bar width, widening heat insulating strip, increasing the cavity number of plies and fill foam, take isotherm design, eliminate drain hole, large encirclement design etc. means are adopted between doorframe and window frame and glass, the fractional energy savings of common raising door and window entirety, finally make this serial door and window energy saving efficiency reach 1.27, considerably beyond market, existing door and window fractional energy savings, completes the R&D target of predetermined energy saving efficiency≤1.3.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (6)

1. an energy-saving aluminium alloy door and window, is characterized in that, structure comprises:

Comprise frame in frame in first, second, the first outer rim and the second outer rim, heat insulating strip A is embedded with between frame and described first outer rim in described first, heat insulating strip B is embedded with between frame and described second outer rim in described second, also be connected with glass between frame and described second outer rim in described second, between described heat insulating strip A and described heat insulating strip B, form equivalent pressure cavity;

Described heat insulating strip A and described heat insulating strip B comprises I shape heat insulating strip and two I type heat insulating strips, two described I type heat insulating strips are embedded in the both sides of interior frame and the both sides of outer rim respectively, and described I shape heat insulating strip is embedded in two described I type heat insulating strip position of center line;

In described first, in frame, second, frame, the first outer rim and the second outer rim are cavity structure, are all filled with foam in its cavity;

All foam is filled with in space between the I shape heat insulating strip of described heat insulating strip A and described heat insulating strip B and two I type heat insulating strips;

Described glass is three glass two chamber hollow tempered glass.

2. energy-saving aluminium alloy door and window according to claim 1, is characterized in that:

Described heat insulating strip A and described heat insulating strip B is nylon heat-insulating strip, and the length of described I type heat insulating strip is 41mm, and in described first, scuncheon to the first outer rim outside width reaches 83mm.

3. energy-saving aluminium alloy door and window according to claim 2, is characterized in that:

In described second, the end of frame and the position of described glass contact are provided with sealing joint strip in glass;

The end of described second outer rim and the position of described glass contact are provided with glass external seal glue adhesive tape;

Foam cushion is provided with between described heat insulating strip B and described glass, and the complete coated glass edge of this foam cushion one week.

4. energy-saving aluminium alloy door and window according to claim 3, is characterized in that:

Be provided with equivalent pressure cavity adhesive tape in described equivalent pressure cavity, described equivalent pressure cavity adhesive tape one end is connected with described heat insulating strip A, and its other end is connected with described heat insulating strip B.

5. energy-saving aluminium alloy door and window according to claim 4, is characterized in that:

In described first, in frame and described second, between frame, junction is provided with interior frame sealing joint strip, and between described first outer rim and described second outer rim, junction is provided with outer rim sealing joint strip.

6. energy-saving aluminium alloy door and window according to claim 5, is characterized in that:

Described sealing joint strip adopts Ethylene Propylene Terpolymer EPDM thermoset rubber or silicon rubber.