CN212656719U - Ventilation energy-saving aluminum alloy door and window - Google Patents

Abstract

The utility model relates to a door and window technical field discloses an energy-saving aluminum alloy door and window ventilates, including two crossbeams, two stands and two window forms, the both ends of crossbeam all perpendicular rigid coupling have the stand, one side of stand all articulates there is the window form, on the inside wall of crossbeam with all paste on the inside wall of stand and have two sand grips, one side of sand grip all is provided with the silica gel slat, just all be connected with the heat preservation cardboard between the silica gel slat. The utility model discloses not only through the heat preservation cardboard that sets up silica gel slat and ripple column structure in the inside of crossbeam, stand, carry out comprehensive fire-retardant heat preservation when not influencing inside ventilation dehumidification, seal the heat preservation to the edge gap department of window form moreover to effectively improved heat preservation energy-saving effect, in addition, silica gel slat and heat preservation cardboard adopt the mounting means of slip gomphosis, screw locking respectively, the later stage dismouting of being convenient for, change, thereby improved maintenance efficiency.

Description

Ventilation energy-saving aluminum alloy door and window

Technical Field

The utility model relates to a door and window technical field specifically is a ventilation energy-saving aluminium alloy door and window.

Background

In modern buildings, in order to increase the lighting and ventilation area, the area of the windows and doors of the buildings is larger and larger, so that the heat loss of the windows and doors accounts for more than 40% of the total heat loss of the buildings. In order to improve this situation, the energy saving effect is generally enhanced by improving the door and window material (e.g., aluminum alloy material) and enhancing the sealing performance while ensuring the basic functions of the door and window.

However, the existing energy-saving doors and windows mainly improve the materials of the doors and windows, but neglect the improvement of beam and column structures around the doors and windows, the beam and column structures are used as the associated parts of the doors and windows and walls, and a certain amount of corrugated paper is generally filled in the beam and column structures to be used as heat insulation materials, so that the heat insulation effect is poor; and the corrugated paper is easy to be affected with damp and aged, and is inconvenient to take out and replace at the later stage. Accordingly, those skilled in the art have provided a ventilation and energy-saving type aluminum alloy door/window to solve the above problems in the background art.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a ventilation energy-saving aluminium alloy door and window to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides an energy-saving aluminum alloy door and window ventilates, includes two crossbeams, two stands and two window forms, the both ends of crossbeam all perpendicular rigid coupling have the stand, one side of stand all articulates there is the window form, on the inside wall of crossbeam with all paste on the inside wall of stand and have two sand grips, just inside two of crossbeam mutual symmetry between the sand grip, and inside two of stand mutual symmetry between the sand grip, one side of sand grip all is provided with the silica gel slat, just all be connected with the heat preservation cardboard between the silica gel slat.

As a further aspect of the present invention: the stand is close to logical groove has all been seted up to one side of crossbeam, just the crossbeam pass through between the stand lead to the groove intercommunication each other.

As a further aspect of the present invention: the outward flange of window body all wraps up there is the rubber frame, just the rubber frame all is "Contraband" type structure, the crossbeam the stand and all elastic contact between the rubber frame.

As a further aspect of the present invention: the central point department of putting of silica gel slat one side has all seted up the draw-in groove, just the sand grip the draw-in groove all is the halfcylinder, the sand grip with mutual gomphosis of draw-in groove and sliding connection.

As a further aspect of the present invention: the slot has all been seted up to inside one side of silica gel slat, the one end of heat preservation cardboard all the level extend to in the slot, slot one side all install the screw in the silica gel slat, just the screw all runs through perpendicularly the heat preservation cardboard.

As a further aspect of the present invention: the heat-insulating paperboards are all corrugated structures and are formed by laminating heat-insulating felts, kraft paper and flame-retardant cotton.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the heat-insulating board with the corrugated structure is stably placed by attaching the silica gel battens to the two inner side walls of the cross beam and the upright column, the heat-insulating felt, the kraft paper and the flame-retardant cotton are overlapped to form a composite structure for flame-retardant heat insulation, the internal ventilation is not influenced, and the rubber frame with an Contraband-shaped structure is wrapped on the outer edge of the window body for sealing and insulating the gap, so that the heat-insulating and energy-saving effects of the aluminum alloy door and window are effectively improved;

2. through the slip gomphosis structure between the sand grip of semicircle column shape and the draw-in groove, the holistic location of silica gel slat of being convenient for is taken out and is put, again because in the tip level embedding slot of heat preservation cardboard to utilize the screw to run through perpendicularly, later stage dismouting, the change of being convenient for, thereby improved this aluminum alloy door and window's maintenance efficiency.

Drawings

FIG. 1 is a schematic perspective view of a ventilating energy-saving aluminum alloy door and window;

FIG. 2 is a schematic view of a partial three-dimensional separation structure of a ventilating energy-saving aluminum alloy door and window;

FIG. 3 is a schematic view of an enlarged side view cross section of an aluminum alloy beam in a ventilation energy-saving aluminum alloy door window.

In the figure: 1. a cross beam; 2. a column; 3. a window body; 4. a rubber frame; 5. a through groove; 6. a convex strip; 7. a silica gel ribbon board; 8. a card slot; 9. a slot; 10. a screw; 11. a heat preservation paperboard.

Detailed Description

Please refer to fig. 1-3, in the embodiment of the utility model, an energy-saving aluminum alloy door and window ventilates, including two crossbeams 1, two stands 2 and two window forms 3, the both ends of crossbeam 1 all perpendicular rigid coupling have stand 2, one side of stand 2 all articulates there is window form 3, all paste on the inside wall of crossbeam 1 and the inside wall of stand 2 and have two sand grips 6, and mutual symmetry between two inside sand grips 6 of crossbeam 1, and mutual symmetry between two inside sand grips 6 of stand 2, one side of sand grip 6 all is provided with silica gel slat 7, and all be connected with heat preservation cardboard 11 between the silica gel slat 7.

In fig. 1, 2 and 3: through grooves 5 are formed in the sides, close to the cross beam 1, of the upright posts 2, and the cross beam 1 and the upright posts 2 are communicated with each other through the through grooves 5 and used for internal circulation ventilation to avoid moisture deposition; the outer edges of the window body 3 are all wrapped with rubber frames 4, the rubber frames 4 are all in Contraband-shaped structures, and the cross beam 1, the upright post 2 and the rubber frames 4 are in elastic contact and used for enhancing the sealing and heat preservation effects at gaps; the heat preservation paperboards 11 are all corrugated structures, and the heat preservation paperboards 11 are formed by laminating heat preservation felts, kraft paper and flame retardant cotton and are used for strengthening heat preservation and heat insulation effects.

In fig. 2 and 3: the central position of one side of the silica gel ribbon board 7 is provided with a clamping groove 8, the raised line 6 and the clamping groove 8 are both in a semi-cylindrical shape, and the raised line 6 and the clamping groove 8 are mutually embedded and are in sliding connection, so that the whole silica gel ribbon board 7 is conveniently positioned and disassembled; the slot 9 has all been seted up to the inside one side of silica gel slat 7, and the one end of heat preservation cardboard 11 all horizontally extends to in the slot 9, all installs screw 10 in the silica gel slat 7 of slot 9 one side, and screw 10 all runs through heat preservation cardboard 11 perpendicularly, the location dismouting, the change of the heat preservation cardboard 11 of being convenient for.

The utility model discloses a theory of operation is: the heat-insulating structure of the aluminum alloy door and window is characterized in that two silica gel battens 7 are symmetrically attached to two inner side walls of a beam 1 and a stand column 2, a heat-insulating paperboard 11 with a corrugated structure is stably placed between the silica gel battens 7, meanwhile, heat-insulating felt, kraft paper and flame-retardant cotton are overlapped to form the heat-insulating paperboard 11 for flame-retardant heat insulation, a gap is reserved in the middle of the heat-insulating paperboard, and four through grooves 5 are matched, so that circulation ventilation and dehumidification can be realized between the beam 1 and the stand column 2, in addition, rubber frames 4 with 'Contraband' type structures are wrapped on the outer edges of two window bodies 3, and the rubber frames are used for elastic sealing and heat insulation on the closed gap, so that the heat-insulating and;

in addition, after 11 ageing backs of heat preservation cardboard, the slip gomphosis structure between 6 and the draw-in groove 8 of accessible semicylindrical sand grip takes out the silica gel slat 7 is whole about crossbeam 1 or stand 2 parallel, again because in 11 tip levels embedding slots 9 of heat preservation cardboard to utilize screw 10 to run through perpendicularly, the later stage dismouting of being convenient for, change, thereby improved this aluminum alloy door and window's maintenance efficiency.

The above-mentioned, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. The utility model provides a ventilation energy-saving aluminum alloy door and window, includes two crossbeam (1), two stand (2) and two window forms (3), its characterized in that, the both ends of crossbeam (1) all perpendicular rigid coupling have stand (2), one side of stand (2) all articulates there is window form (3), on the inside wall of crossbeam (1) with all paste on the inside wall of stand (2) and have two sand grips (6), just crossbeam (1) inside two mutual symmetry between sand grip (6), and stand (2) inside two mutual symmetry between sand grip (6), one side of sand grip (6) all is provided with silica gel slat (7), just all be connected with between silica gel slat (7) insulation board (11).

2. The ventilation energy-saving aluminum alloy door and window as claimed in claim 1, wherein the side of the upright (2) close to the beam (1) is provided with a through groove (5), and the beam (1) and the upright (2) are communicated with each other through the through groove (5).

3. The ventilating energy-saving aluminum alloy door and window as claimed in claim 1, wherein the outer edges of the window body (3) are wrapped with rubber frames (4), the rubber frames (4) are all in Contraband-shaped structures, and the cross beam (1), the upright post (2) and the rubber frames (4) are all in elastic contact.

4. The ventilation energy-saving aluminum alloy door and window as claimed in claim 1, wherein a clamping groove (8) is formed in the center of one side of the silica gel slat (7), the protruding strip (6) and the clamping groove (8) are both semi-cylindrical, and the protruding strip (6) and the clamping groove (8) are mutually embedded and slidably connected.

5. The ventilating energy-saving aluminum alloy door and window as claimed in claim 1, wherein slots (9) are formed in one side of the inside of the silica gel slat (7), one ends of the heat preservation paperboards (11) horizontally extend into the slots (9), screws (10) are installed in the silica gel slat (7) on one side of the slots (9), and the screws (10) vertically penetrate through the heat preservation paperboards (11).

6. The ventilating energy-saving aluminum alloy door and window as claimed in claim 1, wherein the heat-insulating paper boards (11) are all corrugated structures, and the heat-insulating paper boards (11) are formed by laminating heat-insulating felt, kraft paper and flame-retardant cotton.

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