CN215830302U - All-aluminum alloy energy-saving door and window - Google Patents

Abstract

The utility model relates to the field of aluminum alloy door and window products, in particular to an all-aluminum alloy energy-saving door and window, which comprises an outer decorative frame arranged at a door and window opening of a door and window to be installed, wherein the outer decorative frame is annularly distributed along the side wall of the door and window opening; when the number of the glass components is more than one, the adjacent glass components are fixedly installed through glass window frames and window frame connecting pieces arranged between the glass window frames, and the glass window frames and the wall surface window frames are identical in structure. The utility model solves the problem that the existing heat-insulating door and window is not beneficial to production.

Description

All-aluminum alloy energy-saving door and window

Technical Field

The utility model relates to the field of aluminum alloy door and window products, in particular to an all-aluminum alloy energy-saving door and window.

Background

Most energy-saving windows in the current market are made of heat-insulating bridge-cut-off aluminum alloy materials, and the structure of the energy-saving windows is that heat-insulating nylon strips are penetrated in the middle of aluminum alloy or heat-insulating polyurethane glue is poured to achieve the function of profile heat insulation, as shown in CN 110145209A, the aluminum alloy door window sash comprises a glass component and a window frame used for fixing the glass component, a first adhesive tape is arranged at the joint of the glass component and the window frame, the window frame comprises a sash frame and a frame, a plurality of second adhesive tapes are arranged at the joint of the sash frame and the frame, and a plurality of heat-insulating nylon are arranged in the sash frame and the frame; the second adhesive tape comprises a left second adhesive tape, a middle second adhesive tape and a right second adhesive tape, wherein the middle second adhesive tape is fixed between two adjacent heat-insulating nylons, and the middle second adhesive tape comprises a clamping portion clamped on the heat-insulating nylons, a bent hook portion abutted against the abutting portion on the inner wall of the sash frame and the heat-insulating nylons abutted against the frame.

This technical scheme shows current al-alloy door & window's basic structure, and it has the problem that production technology is complicated, and the product structure also has nylon strip ageing rate faster than the aluminum product simultaneously, compound back section bar and surface unevenness, a great deal of service problems such as infiltration easily.

SUMMERY OF THE UTILITY MODEL

Therefore, the utility model provides an all-aluminum alloy energy-saving door window, and solves the problems that the existing heat-insulating door window is easy to age and is not beneficial to production.

In order to achieve the purpose, the utility model is realized by the following technical scheme:

an all-aluminum alloy energy-saving door and window comprises an outer decorative frame arranged at a door and window opening of a door and window to be installed, wherein the outer decorative frame is annularly distributed along the side wall of the door and window opening; when the number of the glass components is more than one, the adjacent glass components are fixedly installed through glass window frames and window frame connecting pieces arranged between the glass window frames, and the glass window frames and the wall surface window frames are identical in structure.

Preferably, the glass assembly comprises glass, a glass sealing frame annularly distributed on the peripheral side of the glass, and a fixing piece fixed on the surface of the glass close to the peripheral side edge position, wherein the fixing piece is connected with the wall window frame and the glass window frame.

Preferably, the fixing piece is divided into a fixing auxiliary frame or a glass sash according to different fixing/movable mounting modes of the glass assembly, and when the fixing piece is of a glass sash structure, the glass sash is connected with the wall surface window frame and the glass window frame in a mounting mode through a translation hinge; when the fixing auxiliary frame is a fixing auxiliary frame, the fixing auxiliary frame is fixedly connected with the wall window frame and the glass window frame through fixing screws.

Preferably, the parts of the wall surface window frame and the glass window frame, which are not provided with the fixing parts, are provided with the shielding frames, and the shielding frames are consistent with the appearance heights of the fixing parts.

Preferably, the glass and the fixing piece are connected through a double-sided tape, and structural glue is arranged at exposed ends of two sides of the double-sided tape for connection and fixation.

Preferably, the thickness of the double-sided sticker is 5-8 mm.

Preferably, the glass sealing frame is provided with an outwards convex notch, an inner sealing strip is installed in the notch, and the inner sealing strip is used for enabling the glass sealing frame to be connected with the wall window frame and the glass window frame in a sealing mode.

Preferably, personally submit zigzag's frame connecting piece fixed mounting through a transversal between outer escutcheon and the door and window entrance to a cave, the frame connecting piece is including fixing the stiff end on door and window entrance to a cave lateral wall and being used for the installation the broken line end of outer escutcheon, the stiff end is fixed on door and window entrance to a cave lateral wall through the connecting nail and wholly inlays and put in door and window entrance to a cave lateral wall, the broken line end is then stretched out outside the door and window entrance to a cave lateral wall, outer escutcheon with the installation of broken line end block.

Preferably, the glass is flush with the surface of the outer decorative frame.

Preferably, the glass is laminated glass or photoelectric glass.

By adopting the technical scheme, the utility model has the beneficial effects that:

the utility model designs an aluminum alloy door and window structure with different structures, a gap is reserved between an outer decoration frame and a wall surface window frame, the aluminum alloy door and window structure is naturally separated after being sealed by weather-proof sealant, the outer decoration frame and the wall surface window frame are not directly contacted for heat conduction after being separated, a glass assembly and the outer decoration frame are mutually independent after being installed, heat insulation and water resistance are carried out between the outer decoration frame and the outer decoration frame through an outer sealing strip, the whole door and window forms a structure taking glass as a main heat insulation material, the glass accounts for more than 98% of the surface area of the whole window, the energy-saving and heat insulation effects of the door and window structure are ensured, the whole appearance is more attractive, the door and window structure is simple and convenient to install, and the production process is saved.

Drawings

FIG. 1 is a schematic view of the overall structure of a door window according to an embodiment of the present invention;

FIG. 2 is a schematic cross-sectional view of a door/window according to an embodiment of the present invention;

FIG. 3 is a schematic top view of a door/window according to an embodiment of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 2 at A;

fig. 5 is a partially enlarged schematic view of a portion B in fig. 2.

Detailed Description

The following detailed description will be provided for the embodiments of the present invention with reference to specific embodiments, so that how to apply the technical means to solve the technical problems and achieve the technical effects can be fully understood and implemented.

Examples

Referring to fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, an energy-saving all-aluminum alloy door and window is provided, in which an embodiment of the energy-saving all-aluminum alloy door and window takes a window shown in fig. 1 as an example, the energy-saving all-aluminum alloy door and window includes an outer decoration frame 1 disposed at a door and window opening where a door and window are to be installed, the outer decoration frame 1 is disposed along a side wall of the door and window opening in a circular arrangement, specifically, the outer decoration frame 1 is fixedly installed with the door and window opening through an outer frame connecting member 11 having a polygonal cross section, the outer frame connecting member 11 includes a fixed end 111 fixed on a side wall of the door and window opening and a polygonal line end 112 used for installing the outer decoration frame 1, the fixed end 111 is fixed on the side wall of the door and window opening through a connecting nail 113 and is integrally embedded in the side wall of the door and window opening, the polygonal line 112 extends out of the side wall of the door and window opening, and the outer decoration frame 1 is installed with the polygonal line end 112 in a clamping manner; during early installation, the outer frame connecting piece 11 can be embedded in the side wall of the door and window opening in advance, the fold-line-shaped structure can ensure the structural stability of the outer frame connecting piece 11, further ensure the stable structure of the installed outer decorative frame 1, simplify the installation process of the outer decorative frame 1, adopt a direct clamping mode, and complete installation by matching with a later-stage sealant arranged on the outer side of the outer decorative frame 1;

a wall window frame 2 is fixedly installed at the door and window opening on the inner side of the outer decoration frame 1, the outer decoration frame 1 and the wall window frame 2 are fixedly connected through weather-resistant sealant 3, six glass assemblies 4 are embedded in the outer decoration frame 1 (as shown in fig. 1, the six glass assemblies 4 have different specifications designed according to the area and the size of glass according to common size requirements), the glass assemblies 4 are fixedly installed on the wall window frame 2, so that the glass assemblies 4 are installed on the outer decoration frame 1 without contacting with each other, and an outer sealing strip 12 is arranged between the outer decoration frame 1 and the adjacent glass assembly 4; because there is more than one glass component 4 in this embodiment, the adjacent glass components 4 are fixed and installed by the glass window frames 5 and the window frame connecting pieces 51 arranged between the glass window frames 5, and the glass window frames 5 have the same structure as the wall surface window frame 2; when only one glass component 4 is arranged, the peripheral sides of the glass components are close to the door and window openings, and the fittings of the glass window frame 5 and the window frame connecting piece 51 are not needed;

structurally, aluminum alloy door and window structures with different structures are designed, a gap is reserved between an outer decoration frame 1 and a wall surface window frame 2, the aluminum alloy door and window structures are naturally isolated after being sealed by weather-resistant sealant 3, the outer decoration frame 1 is not directly contacted with the wall surface window frame 2 for heat conduction after being isolated, a glass component 4 is mutually independent with the outer decoration frame 1 after being installed, heat insulation and water resistance are realized between the outer decoration frame and the outer decoration frame through an outer sealing strip 12, the whole door and window forms a structure taking glass as a main heat insulation material, and the glass accounts for more than 98% of the surface area of the whole window, so that the energy-saving and heat insulation effects of the door and window structure are ensured, the whole appearance is more attractive, the door and window structure is simple and fashionable, meanwhile, the installation is simple and convenient, and the production process is saved;

in this embodiment, the glass assembly 4 includes a glass 41, a glass sealing frame 42 annularly disposed on the peripheral side of the glass 41, and a fixing member 43 fixed on the surface of the glass 41 near the peripheral side edge, wherein the fixing member 43 is connected to the wall sash 2 and the glass sash 5; specifically, the fixing member 43 is divided into a fixing subframe 43a or a glass sash 43b according to different fixing/movable mounting manners of the glass assembly, and when the fixing member is of a glass sash 43b structure, the glass sash 43b is connected with the wall surface window frame 2 and the glass window frame 5 through a translation hinge 44, so that the opening and closing of a window can be realized; when the glass component is a fixed auxiliary frame 43a, the fixed auxiliary frame 43a is fixedly connected with the wall surface window frame 2 and the glass window frame 5 through a fixing screw 45, and the glass component 4 at the moment is of a fixed window structure;

in this embodiment, the portions of the wall surface window frame 2 and the glass window frame 5, which are not provided with the fixing members 43, are provided with the shielding frames 46, and the shielding frames 46 and the fixing members 43 have the same height; the structure of the shielding frame 46 shields the fixing screws 45 for connection, so that the appearance is attractive, meanwhile, the translation hinges 44 are shielded, a certain protection effect can be achieved, the interference of external impurities is avoided, and the service life of the hinge is prolonged;

in this embodiment, the glass 41 and the fixing member 43 are connected by a double-sided tape 47, and structural adhesive 48 is disposed at exposed ends of two sides of the double-sided tape 47 for connection and fixation; here, the thickness of the double-sided tape 47 can be selected from 5 to 8 mm according to the size of the door and window; the double-sided tape 47 and the structural adhesive 48 at the exposed ends on the two sides can ensure that the mounting structure between the glass 41 and the fixing piece 43 is stable, and meanwhile, the sealing property of the joint of the two is also ensured;

in this embodiment, the glass sealing frame 42 is provided with a notch protruding outwards, an inner sealing strip 49 is installed in the notch, and the inner sealing strip 49 is used for sealing and connecting the glass sealing frame 42 with the wall surface window frame 2 and the glass window frame 5; the structure of the two inner sealing strips 49 is specifically arranged, and the other sealing structure is additionally arranged in the door and window of the outer sealing strip 12, so that the sealing effect is further improved, the water seepage of the door and window is thoroughly avoided, and the silent performance of the door and window is improved;

in this embodiment, the glass 41 is flush with the surface of the outer bezel 1; after the glass component 4 is installed, the glass 41 and the outer decorative frame 1 are positioned on the same plane, so that the appearance is more attractive and regular;

in this embodiment, the glass 41 is photoelectric glass; the glass 41 may be a common glass product such as laminated glass, depending on the requirements.

It should be understood that the structure provided by the technical scheme can be also suitable for the aluminum alloy door body; common hardware such as the translation hinge 44 can be replaced by another equivalent functional part, which is not described herein.

While the utility model has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (10)

1. The utility model provides an energy-conserving door and window of full aluminium alloy which characterized in that: the glass assembly is fixedly arranged with the wall surface window frame, so that the glass assembly is not contacted with the outer decorative frame, and an outer sealing strip is arranged between the outer decorative frame and an adjacent glass assembly; when the number of the glass components is more than one, the adjacent glass components are fixedly installed through glass window frames and window frame connecting pieces arranged between the glass window frames, and the glass window frames and the wall surface window frames are identical in structure.

2. The energy-saving all-aluminum alloy door and window according to claim 1, wherein: the glass component comprises glass, a glass sealing frame annularly distributed on the periphery of the glass, and a fixing piece fixed on the surface of the edge position of the glass close to the periphery, wherein the fixing piece is connected with the wall window frame and the glass window frame.

3. The energy-saving all-aluminum alloy door and window according to claim 2, wherein: the fixing piece is divided into a fixing auxiliary frame or a glass sash according to different fixing/movable mounting modes of the glass assembly, and when the fixing piece is of a glass sash structure, the glass sash is connected with the wall surface window frame and the glass window frame in a mounting mode through the translation hinge; when the fixing auxiliary frame is a fixing auxiliary frame, the fixing auxiliary frame is fixedly connected with the wall window frame and the glass window frame through fixing screws.

4. The energy-saving all-aluminum alloy door and window according to claim 3, wherein: the parts of the wall surface window frame and the glass window frame, which are not provided with the fixing parts, are provided with the shielding frames, and the shielding frames are consistent with the appearance heights of the fixing parts.

5. The all aluminum alloy energy-saving door and window of claim 2, 3 or 4, wherein: the glass is connected with the fixing piece through the double-sided tape, and structural glue is arranged at the exposed ends of the two sides of the double-sided tape for connection and fixation.

6. The energy-saving all-aluminum alloy door and window according to claim 5, wherein: the thickness of the double-sided sticker is 5-8 mm.

7. The all aluminum alloy energy-saving door and window of claim 2, 3 or 4, wherein: the glass sealing frame is provided with an outwards convex notch, an inner sealing strip is installed in the notch, and the inner sealing strip is used for enabling the glass sealing frame to be connected with the wall window frame and the glass window frame in a sealing mode.

8. The all aluminum alloy energy-saving door and window of claim 2, 3 or 4, wherein: the utility model discloses a door and window opening, including door and window opening, outer decorative frame and door and window opening, be equipped with the broken line end of door and window opening, the broken line end of door and window opening is fixed on door and window opening lateral wall and is wholly inlayed in door and window opening lateral wall through the connecting nail between outer decorative frame and the door and window opening through a transversal frame connecting piece fixed mounting of personally submitting the broken line shape, the frame connecting piece is including fixing the stiff end on door and window opening lateral wall and be used for the installation the broken line end of outer decorative frame, the stiff end is fixed on door and window opening lateral wall and wholly inlays and put in door and window opening lateral wall, the broken line end then stretches out outside the door and window opening lateral wall, outer decorative frame with the installation of broken line end block.

9. The all aluminum alloy energy-saving door and window of claim 2, 3 or 4, wherein: the glass is flush with the surface of the outer decorative frame.

10. The all aluminum alloy energy-saving door and window of claim 2, 3 or 4, wherein: the glass is laminated glass or photoelectric glass.

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