CN205370364U - Energy -saving door and window - Google Patents

Abstract

The utility model relates to an energy -saving door and window, be fixed in including entablature, bottom end rail and connection two longerons between entablature and the bottom end rail, install solid glass and cavity glass in the space that entablature, bottom end rail and two longerons enclose, solid glass with cavity glass parallel arrangement, cavity glass includes outer glass layer, interior glass layer and is located outer glass layer with air inflation layer between the interior glass layer, outer glass layer with just be in between the interior glass layer air inflation layer 's edge is equipped with hollow space stop bar, the head and the tail both ends of space stop bar set up the wedge bevel connection so that form closed ring shape behind the space stop bar end to end, thereby energy -saving door and window's thermal -insulated thermal insulation performance better, more energy -conserving, life is longer.

Description

A kind of energy saving door and window

Technical field

This utility model belongs to window technology field, is specifically related to a kind of energy saving door and window.

Background technology

The plastic-steel door and window of house is typically with installing double glazing and reaches the effect of heat-insulation and heat-preservation.The classical production process of the double glazing in plastic-steel door and window, is layer glass be sealed by high intensity high-air-tightness compound binding agent with an aluminium alloy parting bead, is internally formed cavity, makes double glazing have the effects such as heat insulation, sound insulation.

But, due to fixing for bonding between layer glass and rigid division bar, the bonding strength of binding agent reduces, easily damaged by shear stress, so that gap easily occurs between layer glass and rigid division bar and junction, parting bead two ends, make the gas in heat-insulation and heat-preservation space to flow, increase substantially the pyroconductivity of double glazing, have a strong impact on the heat preservation and insulation of double glazing, make the energy consumption rising 20-40% of room conditioning.After water vapour enters heat-insulation and heat-preservation space from gap, easily form water smoke, reduce light transmittance and the daylighting function of double glazing, and, the entrance of steam causes that double glazing binding agent after a long time use can lose efficacy gradually, lose cementitiousness, make to occur between layer glass and parting bead obscission, affect the service life of double glazing and plastic-steel door and window.

Additionally, due to existing plastic-steel door/window is all fixed installation, it is impossible to enough dismountings, therefore it is not easy to change the color of glass, applique etc. according to personal preference.

Utility model content

In order to solve the problems referred to above that prior art exists, this utility model provides that a kind of heat preservation and insulation is good, more energy-conservation, the energy saving door and window of long service life.

The technical scheme that this utility model adopts is:

A kind of energy saving door and window, including entablature, sill and be connected and fixed on two longerons between described entablature and sill, being provided with solid glass and double glazing in the space that described entablature, sill and two longerons surround, described solid glass and described double glazing be arranged in parallel；

Described double glazing includes outer glassy layer, interior glassy layer and the airflow layer between described outer glassy layer and described interior glassy layer, between described outer glassy layer and described interior glassy layer and be in the edge of described airflow layer and be provided with the spacer bar of hollow, the head and the tail two ends of described spacer bar arrange wedge shape angle so that described spacer bar forms closed annular after joining end to end, described spacer bar is provided with external seal glue-line away from the sidewall of described airflow layer, between described spacer bar and described outer glassy layer, sealant layer in first is set, between described spacer bar and described interior glassy layer, sealant layer in second is set.

The forward surface of said two longeron is respectively provided with the first guide-localization groove installing described solid glass, described entablature is provided with the bar hole for inserting described solid glass, and described solid glass is located in two described first guide-localization grooves by described bar hole detachable interposing；

The forward surface of said two longeron and described entablature, sill forward surface on be respectively provided with the second guide-localization groove installing described double glazing, described double glazing detachable interposing is located in four described second guide-localization grooves.

Being provided with bearing between described solid glass and described sill, described bearing is provided with stopper slot, and the lower end detachable interposing of described solid glass is located in described stopper slot, and the outer end of described bearing is provided with mobile division.

It is provided with sealing strip between described double glazing and four described second guide-localization grooves.

Described spacer bar is partition adjustable bar, fills noble gas, be filled with desiccant in described spacer bar in described airflow layer, and described desiccant is that double glazing is dedicated molecular sieve used, and described spacer bar is close to the sidewall of described airflow layer and is provided with air-vent.

The thickness of described outer glassy layer is the twice of described interior glassy layer thickness.

The outer surface of described outer glassy layer is provided with UV resistance coating.

The side that described spacer bar is corresponding with sealant layer in described first is provided with two the first projections along described spacer bar longitudinal extension, spacing distance is left between said two the first projection, in described first, be close to the shape in face with described spacer bar corresponding with the shape of described spacer bar for sealant layer, and in described first, the another side of sealant layer is plane.

The side that described spacer bar is corresponding with sealant layer in described second is provided with two the second projections along described spacer bar longitudinal extension, spacing distance is left between said two the second projection, in described second, be close to the shape in face with described spacer bar corresponding with the shape of described spacer bar for sealant layer, and in described second, the another side of sealant layer is plane.

In described first, in sealant layer and second, sealant layer is butyl glue-line, and described external seal glue-line is silicone seal glue-line.

The beneficial effects of the utility model are:

1, energy saving door and window described in the utility model, internally installed have solid glass and double glazing, passing through, described double glazing is set further and includes outer glassy layer, interior glassy layer and the airflow layer between described outer glassy layer and described interior glassy layer, between described outer glassy layer and described interior glassy layer and be in the edge of described airflow layer and be provided with the spacer bar of hollow, the head and the tail two ends of described spacer bar arrange wedge shape angle so that described spacer bar forms closed annular after joining end to end, thus utilizing angle docking design to guarantee that whole spacer bar forms air-locked sealing ring, air-tightness is good, prevent steam or air-flow turnover inner inflatable layer；Furthermore, by being filled with desiccant in described spacer bar, described spacer bar is close to the sidewall of described airflow layer and is provided with air-vent, such that it is able to airflow layer plays the effect of dry moisture absorption, it is to avoid occur steam or solidifying mist in airflow layer；It is provided with external seal glue-line further also by the described spacer bar sidewall away from described airflow layer, between described spacer bar and described outer glassy layer, sealant layer in first is set, between described spacer bar and described interior glassy layer, sealant layer in second is set, it is thus possible to effectively prevent from coming off between spacer bar and layer glass, the heat-insulation and heat-preservation ability making double glazing and energy saving door and window is better, more energy-conservation, and improve service life；

Additionally, be only provided with double glazing than existing door and window, energy saving door and window described in the utility model also increases and is provided with solid glass, thus adding a heat-insulation and heat-preservation space so that the heat preservation and insulation of energy saving door and window is better, more energy-conservation.

2, described energy saving door and window described in the utility model, by being provided with bearing between described solid glass and described sill, described bearing is provided with stopper slot, the lower end detachable interposing of described solid glass is located in described stopper slot, the outer end of described bearing is provided with mobile division, solid glass just can be manually changed easily, it is simple to change the solid glass of different colours, applique according to personal preference thereby through the mobile division on bearing.

3, energy saving door and window described in the utility model, it is partition adjustable bar by arranging the spacer bar of described double glazing, make elastic between outer glassy layer with interior glassy layer connection, the effect of impact power acting on insulating glass unit surface is made to have certain buffer time and cushion stroke, it is greatly reduced effect of impact power and acts on the instantaneous force on insulating glass unit surface, effectively prevent insulating glass unit to be crashed to pieces, improve the structural strength of insulating glass unit.Being different between existing double glazing and adopt rigid material Hard link, the impact force acting on glass pane surface does not have any buffering, there is use glass plate and is easily broken, the not high problem of structural strength.

Accompanying drawing explanation

Fig. 1 is the structural representation of a kind of energy saving door and window of this utility model；

Fig. 2 is the overall structure schematic diagram of a kind of double glazing of this utility model；

Fig. 3 is the part-structure schematic diagram of a kind of double glazing of this utility model；

Fig. 4 is the structural representation of a kind of spacer bar of this utility model；

Fig. 5 is the structural representation of the angle joint of spacer bar of the present utility model；

Fig. 6 is the cut-away section structural representation of this utility model another kind double glazing；

Fig. 7 is the structural representation of this utility model another kind spacer bar.

In figure: the outer glassy layer of 1-, sealant layer in 11-first, 2-spacer bar, 21-desiccant, 22-air-vent, 23-wedge shape angle, 24-first is protruding, and 25-second is protruding, 26-cover, glassy layer in 3-, sealant layer in 31-second, 4-external seal glue-line, 5-entablature, 51-bar hole, 6-sill, 7-longeron, 8-solid glass, 81-bearing, 82-mobile division, 9-double glazing, 91-sealing strip.

Detailed description of the invention

As shown in Figure 1, this utility model provides a kind of energy saving door and window, including entablature 5, sill 6 and be connected and fixed on two longerons 7 between described entablature 5 and sill 6, being provided with solid glass 8 and double glazing 9 in the space that described entablature 5, sill 6 and two longerons 7 surround, described solid glass 8 be arranged in parallel with described double glazing 9.Only being provided with double glazing 9 than existing door and window, energy saving door and window described in the utility model also increases and is provided with solid glass 8, thus adding a heat-insulation and heat-preservation space so that the heat preservation and insulation of energy saving door and window is better, more energy-conservation.

As shown in Figures 2 and 3, described double glazing 9 includes outer glassy layer 1, interior glassy layer 3 and the airflow layer between described outer glassy layer 1 and described interior glassy layer 3, between described outer glassy layer 1 and described interior glassy layer 3 and be in the edge of described airflow layer and be provided with the spacer bar 2 (see Fig. 4) of hollow, as the embodiment that can select, described spacer bar 2 is partition adjustable bar 2, its material can be rubber, it is also possible to for silica gel.

As the embodiment that can select, the forward surface of said two longeron 7 is respectively provided with the first guide-localization groove installing described solid glass 8, described entablature 5 is provided with the bar hole 51 for inserting described solid glass 8, and described solid glass 8 is located in two described first guide-localization grooves by described bar hole 51 detachable interposing；The forward surface of said two longeron 7 and described entablature 5, sill 6 forward surface on be respectively provided with the second guide-localization groove installing described double glazing 9, described double glazing 9 detachable interposing is located in four described second guide-localization grooves.

As the embodiment that can select, being provided with bearing 81 between described solid glass 8 and described sill 6, described bearing 81 is provided with stopper slot, and the lower end detachable interposing of described solid glass 8 is located in described stopper slot, and the outer end of described bearing 81 is provided with mobile division 82.Solid glass 8 just can be manually changed easily, it is simple to change the solid glass 8 of different colours, applique according to personal preference thereby through the mobile division 82 on bearing 81.

As the embodiment that can select, it is provided with sealing strip 91 between described double glazing 9 and four described second guide-localization grooves, it is further used as the embodiment that can select, described sealing strip 91 is rubber weather strip 91, by double glazing 9 described in described rubber weather strip 91 adhering and sealing and the gap between four described second guide-localization grooves.

As shown in Figure 5, the head and the tail two ends of described spacer bar 2 arrange wedge shape angle 23 so that described spacer bar 2 forms closed annular after joining end to end, it is filled with desiccant 21 in described spacer bar 2, the sidewall that described spacer bar 2 is close to described airflow layer is provided with air-vent 22, described spacer bar 2 is provided with external seal glue-line 4 away from the sidewall of described airflow layer, sealant layer 11 in first are set between described spacer bar 2 and described outer glassy layer 1, between described spacer bar 2 and described interior glassy layer 3, sealant layer 31 in second are set.

As the embodiment that can select, filling noble gas in described airflow layer, noble gas can be argon and/or Krypton.

As the embodiment that can select, described desiccant 21 is that double glazing 9 is dedicated molecular sieve used, such that it is able to the steam entering airflow layer absorbs in time, it is to avoid occur steam or solidifying mist in airflow layer.Being further used as the embodiment that can select, the molecular sieve in described spacer bar 2 loads in the cover 26 that non-woven fabrics is made (see Fig. 7), and the diameter of described air-vent 22 is more than 4 times of described molecular sieve particle diameter.

As the embodiment that can select, the thickness of described outer glassy layer 1 is the twice of described interior glassy layer 3 thickness.At this moment due in building glass, such as window-glass, sound control glass plate, its bigger shock is all to occur on glass outer, therefore, in order to improve the anti-collision performance of double glazing 9 power to external world, the thickness of described outer glassy layer 1 is 2 times of described interior glassy layer 3 thickness.

As the embodiment that can select, the outer surface of described outer glassy layer 1 is provided with UV resistance coating, so that double glazing described in the utility model 9 has good ultraviolet resistance.

nullAs the embodiment that can select，As shown in Figure 6，The side that described spacer bar 2 is corresponding with sealant layer 11 in described first is provided with two the first projections 24 along described spacer bar 2 longitudinal extension，Spacing distance is left between said two the first projection 24，In described first, be close to the shape in face with described spacer bar 2 corresponding with the shape of described spacer bar 2 for sealant layer 11，In described first, the another side of sealant layer 11 is plane，Simultaneously，The side that described spacer bar 2 is corresponding with sealant layer 31 in described second is provided with two the second projections 25 along described spacer bar 2 longitudinal extension，Spacing distance is left between said two the second projection 25，In described second, be close to the shape in face with described spacer bar 2 corresponding with the shape of described spacer bar 2 for sealant layer 31，In described second, the another side of sealant layer 31 is plane，Thus under the effect of the described first protruding 24 and second projection 25，Make described spacer bar 2 respectively in described first in sealant layer 11 and described second deformation rate of sealant layer 31 corresponding position all increase，Sealing effectiveness is better.

As the embodiment that can select, in described first, in sealant layer 11 and second, sealant layer 31 is butyl glue-line.Described external seal glue-line 4 is silicone seal glue-line.

This utility model is not limited to above-mentioned preferred forms; anyone can draw other various forms of products under enlightenment of the present utility model; no matter but in its shape or structure, do any change; every have same or like with the application like technical scheme, all fall within protection domain of the present utility model.

Claims (10)

1. an energy saving door and window, it is characterized in that, including entablature (5), sill (6) and be connected and fixed on two longerons (7) between described entablature (5) and sill (6), being provided with solid glass (8) and double glazing (9) in the space that described entablature (5), sill (6) and two longerons (7) surround, described solid glass (8) and described double glazing (9) be arranged in parallel；

Described double glazing (9) includes outer glassy layer (1), interior glassy layer (3) and be positioned at the airflow layer between described outer glassy layer (1) and described glassy layer (3), between described outer glassy layer (1) and described interior glassy layer (3) and be in the edge of described airflow layer and be provided with the spacer bar (2) of hollow, the head and the tail two ends of described spacer bar (2) arrange wedge shape angle (23) so that described spacer bar (2) forms closed annular after joining end to end, described spacer bar (2) is provided with external seal glue-line (4) away from the sidewall of described airflow layer, sealant layer in first (11) is set between described spacer bar (2) and described outer glassy layer (1), sealant layer in second (31) is set between described spacer bar (2) and described interior glassy layer (3).

2. energy saving door and window according to claim 1, it is characterized in that, the forward surface of said two longeron (7) is respectively provided with the first guide-localization groove installing described solid glass (8), described entablature (5) is provided with the bar hole (51) for inserting described solid glass (8), and described solid glass (8) is located in two described first guide-localization grooves by described bar hole (51) detachable interposing；

The forward surface of said two longeron (7) and described entablature (5), sill (6) forward surface on be respectively provided with the second guide-localization groove installing described double glazing (9), described double glazing (9) detachable interposing is located in four described second guide-localization grooves.

3. energy saving door and window according to claim 1, it is characterized in that, bearing (81) it is provided with between described solid glass (8) and described sill (6), described bearing (81) is provided with stopper slot, the lower end detachable interposing of described solid glass (8) is located in described stopper slot, and the outer end of described bearing (81) is provided with mobile division (82).

4. energy saving door and window according to claim 2, it is characterised in that be provided with sealing strip (91) between described double glazing (9) and four described second guide-localization grooves.

5. energy saving door and window according to claim 1, it is characterized in that, described spacer bar (2) is partition adjustable bar (2), noble gas is filled in described airflow layer, desiccant (21) it is filled with in described spacer bar (2), described desiccant (21) is dedicated molecular sieve used for double glazing (9), and described spacer bar (2) is close to the sidewall of described airflow layer and is provided with air-vent (22).

6. energy saving door and window according to claim 1, it is characterised in that the thickness of described outer glassy layer (1) is the twice of described interior glassy layer (3) thickness.

7. energy saving door and window according to claim 1, it is characterised in that the outer surface of described outer glassy layer (1) is provided with UV resistance coating.

8. energy saving door and window according to claim 1, it is characterized in that, the side that described spacer bar (2) is corresponding with sealant layer (11) in described first is provided with two first protruding (24) along described spacer bar (2) longitudinal extension, spacing distance is left between said two first protruding (24), in described first, be close to the shape in face with described spacer bar (2) corresponding with the shape of described spacer bar (2) for sealant layer (11), and in described first, the another side of sealant layer (11) is plane.

9. energy saving door and window according to claim 1, it is characterized in that, the side that described spacer bar (2) is corresponding with sealant layer (31) in described second is provided with two second protruding (25) along described spacer bar (2) longitudinal extension, spacing distance is left between said two second protruding (25), in described second, be close to the shape in face with described spacer bar (2) corresponding with the shape of described spacer bar (2) for sealant layer (31), and in described second, the another side of sealant layer (31) is plane.

10. energy saving door and window according to claim 1, it is characterised in that in described first, in sealant layer (11) and second, sealant layer (31) is butyl glue-line, and described external seal glue-line (4) is silicone seal glue-line.