CN208089137U - Energy saving door and window with functions/drying - Google Patents

Abstract

The utility model discloses a kind of energy saving door and window with functions/drying, it includes door window frame and the first glass and the second glass that are installed on the door window frame, it is formed with interval between first glass and the second glass, so as to form a closed cavity between the door window frame and the first glass and the second glass；The door window frame inner wall is provided with dry aluminum strip, and filled with plural drier inside the drying aluminum strip, and the drying aluminum strip upper surface and left and right side are both provided with plural number and are connected to its internal perforation with the closed cavity, which is less than drier outer diameter；The closed cavity is full of argon gas or nitrogen；First glass or the second glass surface are coated with one layer of sun-proof energy-saving nanometer dope layer by spraying method；The dry aluminum strip rectangular in cross-section, which is pasted by glue and door window frame fixes, which is formed with interval with first glass and the second glass respectively.The drying effect of the utility model is fabulous.

Description

Energy saving door and window with functions/drying

Technical field：

The utility model is related to doors and windows technical fields, refer in particular to a kind of energy saving door and window with functions/drying.

Background technology：

Hollow glass is most of close using the sealing of aluminium alloy edge strip single track and two pass to the history for having more than 100 years at present Gluing mode is sealed, the technologies such as traditional aluminum strip, molecular sieve, one pack system hot melt adhesive bonding, TR sealant, there are waterproofs and heat insulation effect The problem of difference.

Hollow glass in the prior art is using the moisture-proof glue that absorbs water so that the hollow chamber of hollow glass is dried, and absorbs water and prevent Hollow chamber's contact area of damp glue and hollow glass is small so that the drying effect for the moisture-proof glue that absorbs water is limited.

In view of this, the present inventor proposes following technical scheme.

Utility model content：

The purpose of the utility model is to overcome the deficiencies in the prior art, provide a kind of energy-saving doors with functions/drying Window.

In order to solve the above-mentioned technical problem, the utility model uses following technical proposals：The section with functions/drying Energy door and window includes door window frame and the first glass and the second glass that are installed on the door window frame, first glass and second Interval is formed between glass, so as to form a closed cavity between the door window frame and the first glass and the second glass；It is described Door window frame inner wall is provided with dry aluminum strip, and plural drier, and the drying aluminum strip upper surface are filled with inside the drying aluminum strip And left and right side is both provided with perforation of its inside and the closed cavity of plural number connection, which is less than outside drier Diameter；The closed cavity is full of argon gas or nitrogen；First glass or the second glass surface are coated with one by spraying method The sun-proof energy-saving nanometer dope layer of layer；The dry aluminum strip rectangular in cross-section, the drying aluminum strip lower face pass through glue and sash Frame, which is pasted, to be fixed, which is formed with interval with first glass and the second glass respectively.

Furthermore, in above-mentioned technical proposal, the door window frame inner wall is provided with the first, second mounting groove, described First glass and the second glass outer rim distinguish inlay card in first, second mounting groove, and solid to seal by implantation glass glue It is fixed.

Furthermore, in above-mentioned technical proposal, first glass or the second glass surface form plural sags and crests, To form male and fomale(M&F), which is coated on the male and fomale(M&F) of first glass or the second glass surface, and It is contacted with sags and crests fixation, with ruggedized construction.

Furthermore, in above-mentioned technical proposal, one layer of ultra-thin guarantor is also coated with outside the sun-proof energy-saving nanometer dope layer Cuticula.

Furthermore, in above-mentioned technical proposal, it is also coated with a layer pattern layer outside the sun-proof energy-saving nanometer dope layer, The ultra-thin protective film is coated in the pattern layer.

After adopting the above technical scheme, the utility model has the advantages that compared with prior art：This practicality Drying aluminum strip upper surface and left and right side in novel are both provided with plural number and are connected to its internal desiccant and the closed cavity Perforation, the penetration hole diameter are less than drier outer diameter；And dry aluminum strip left and right side respectively with first glass and the second glass It is formed with interval, the contact area of drier and closed cavity in dry aluminum strip can be increased with this, reaches more ideal drying Effect enables the utility model have the extremely strong market competitiveness.It is applied due to being coated with one layer of sun-proof energy-saving nanometer on the first glass The bed of material can obstruct 90% or more solar ultraviolet light area in the case where the filter of sun visible region visible light-transmissive reaches 70% Ultraviolet light, achieve the purpose that it is energy saving, heat-insulated, every ultraviolet light.The closed cavity is full of argon gas or nitrogen, and the argon gas or nitrogen are Inert gas can effectively prevent that explosion phenomenon occurs in the utility model collision process with this, and use is safer.

Description of the drawings：

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 is the structural schematic diagram of the first glass in the utility model.

Specific implementation mode：

The utility model is further illustrated with reference to specific embodiments and the drawings.

See Fig. 1, shown in 2, be a kind of energy saving door and window with functions/drying comprising door window frame 1 and is installed on this The first glass 2 on door window frame 1 and the second glass 3, interval is formed between first glass 2 and the second glass 3, so that should A closed cavity 10 is formed between door window frame 1 and the first glass 2 and the second glass 3.

1 inner wall of the door window frame is provided with dry aluminum strip 4, which is filled with plural drier 41, and 4 upper surface of drying aluminum strip and left and right side are both provided with perforation 42 of its inside and the closed cavity 10 of plural number connection, should 42 diameters of perforating are less than 41 outer diameter of drier；The closed cavity 10 is full of argon gas or nitrogen, and the argon gas or nitrogen are indifferent gas Body can effectively prevent that explosion phenomenon occurs in the utility model collision process with this, and use is safer；The dry aluminum strip 4 Rectangular in cross-section, which is pasted by glue and door window frame 1 fixes, 4 left and right side of drying aluminum strip It is formed with interval with first glass, 2 and second glass 3 respectively, drier and confined air in dry aluminum strip 4 can be increased with this The contact area of chamber 10 reaches more ideal drying effect, and the utility model is enabled to have the extremely strong market competitiveness.

1 inner wall of the door window frame is provided with the first, second mounting groove 11,12, first glass, 2 and second glass 3 Outer rim distinguishes inlay card in first, second mounting groove 11,12, and by implantation glass glue to seal fixation.

First glass, 2 or second glass, 3 surface is coated with one layer of sun-proof energy-saving nanometer dope layer by spraying method 5；In this present embodiment, which is coated on the first glass 2, due to being coated with one on the first glass 2 The sun-proof energy-saving nanometer dope layer 5 of layer can obstruct sun purple in the case where the filter of sun visible region visible light-transmissive reaches 70% The ultraviolet light in 90% or more the areas Wai Guang, achieve the purpose that it is energy saving, heat-insulated, every ultraviolet light.It is of course also possible in 3 table of the second glass Face is coated with one layer of sun-proof energy-saving nanometer dope layer 5 by spraying method.

First glass, 2 or second glass, 3 surface forming has plural sags and crests 20, to form male and fomale(M&F), the sun-proof section Energy nano paint layer 5 is coated on the male and fomale(M&F) on 3 surface of first glass 2 or the second glass, and is connect with the sags and crests 20 fixation It touches, with ruggedized construction, can prevent sun-proof energy-saving nanometer dope layer from undesirably falling off with this, ensure product quality.

The sun-proof energy-saving nanometer dope layer 5 is formed including following weight percent：

The composite function nano slurry is made of absolute ethyl alcohol and nanometer caesium blue copper, Sb-doped nano tin dioxide, Each raw material are by weight percentage：70% absolute ethyl alcohol, 10% nanometer of caesium blue copper, 20% Sb-doped nano tin dioxide.

It is also coated with one layer of ultra-thin protective film 6 outside the sun-proof energy-saving nanometer dope layer 5, which can protect It protects sun-proof energy-saving nanometer dope layer 5 to damage, ensures product quality.

A layer pattern layer 7 is also coated with outside the sun-proof energy-saving nanometer dope layer 5, the ultra-thin protective film 6 is coated on should In pattern layer 7, which has the pattern of hollow out, and the market competitiveness of the utility model is improved with this.

4 upper surface of drying aluminum strip and left and right side in the utility model be both provided with plural number be connected to its internal desiccant with The perforation 42 of the closed cavity 10,42 diameter of perforation are less than 41 outer diameter of drier；And dry 4 left and right side of aluminum strip respectively with First glass, 2 and second glass 3 is formed with interval, can increase drier and closed cavity 10 in dry aluminum strip 4 with this Contact area reaches more ideal drying effect, and the utility model is enabled to have the extremely strong market competitiveness.Due to the first glass One layer of sun-proof energy-saving nanometer dope layer 5 is coated on 2, in the case where the filter of sun visible region visible light-transmissive reaches 70%, The ultraviolet light that 90% or more solar ultraviolet light area can be obstructed, achieve the purpose that it is energy saving, heat-insulated, every ultraviolet light.The closed cavity 10 are full of argon gas or nitrogen, and the argon gas or nitrogen are inert gas, can effectively prevent sending out in the utility model collision process with this Raw explosion phenomenon, use are safer.

Certainly, it is not to implement to limit the utility model the foregoing is merely specific embodiment of the utility model Range, it is all according to the equivalent change or modification that structure, feature and principle is done described in present utility model application the scope of the claims, it should all wrap It includes in present utility model application the scope of the claims.

Claims (5)

1. with functions/drying energy saving door and window comprising door window frame (1) and be installed on the door window frame (1) first Glass (2) and the second glass (3) are formed with interval, so that the door window frame between first glass (2) and the second glass (3) (1) closed cavity (10) is formed between the first glass (2) and the second glass (3), it is characterised in that：

Door window frame (1) inner wall is provided with dry aluminum strip (4), filled with plural drier inside the drying aluminum strip (4) (41), and drying aluminum strip (4) upper surface and left and right side are both provided with its inside of plural number connection and described closed cavity (10) Perforation (42), perforation (42) diameter be less than drier (41) outer diameter；The closed cavity (10) is full of argon gas or nitrogen；Institute It states the first glass (2) or the second glass (3) surface and one layer of sun-proof energy-saving nanometer dope layer (5) is coated with by spraying method；Institute Dry aluminum strip (4) rectangular in cross-section is stated, which is pasted by glue and door window frame (1) fixes, this is dry Dry aluminum strip (4) left and right side is formed with interval with first glass (2) and the second glass (3) respectively.

2. the energy saving door and window according to claim 1 with functions/drying, it is characterised in that：In the door window frame (1) Wall is provided with the first, second mounting groove (11,12), first glass (2) and the second glass (3) outer rim difference inlay card in this One, in the second mounting groove (11,12), and by implantation glass glue to seal fixation.

3. according to the energy saving door and window with functions/drying described in claim 1-2 any one, it is characterised in that：Described first Glass (2) or the second glass (3) surface forming have plural sags and crests (20), to form male and fomale(M&F), the sun-proof energy-saving nanometer coating Layer (5) is coated on first glass (2) or the male and fomale(M&F) on the second glass (3) surface, and is contacted with the sags and crests (20) fixation, With ruggedized construction.

4. the energy saving door and window according to claim 3 with functions/drying, it is characterised in that：The sun-proof energy-saving nanometer applies It is also coated with one layer of ultra-thin protective film (6) outside the bed of material (5).

5. the energy saving door and window according to claim 4 with functions/drying, it is characterised in that：The sun-proof energy-saving nanometer applies A layer pattern layer (7) is also coated with outside the bed of material (5), the ultra-thin protective film (6) is coated in the pattern layer (7).