CN213627244U - Low energy consumption building door and window heat preservation structure - Google Patents

Abstract

The utility model is suitable for the technical field of building doors and windows, and provides a low-energy-consumption building door and window heat-insulating structure, which comprises a mounting wall body, an aluminum alloy frame and hollow glass, wherein the aluminum alloy frame is movably embedded in the mounting wall body, the hollow glass is clamped and arranged in the aluminum alloy frame, a fixing bolt is inserted into the surface of the aluminum alloy frame, and a first screw hole is arranged in the aluminum alloy frame in a through way, the aluminum alloy frame is propped against the fixing block by arranging the fixing bolt and the fixing block, and the fixing bolt is rotated to sequentially pass through the first screw hole and the second screw hole, so that the aluminum alloy frame is connected with the mounting wall body, the mounting is more convenient and rapid, the construction process is simplified, in addition, when the aluminum alloy frame is propped against the fixing block, the sealing gasket can fill the gap between the aluminum alloy frame, the heat preservation performance of the low-energy-consumption building door and window heat preservation structure is effectively improved.

Description

Low energy consumption building door and window heat preservation structure

Technical Field

The utility model relates to a building door and window system technical field, concretely relates to low energy consumption building door and window mouth insulation construction.

Background

The cold bridge and the hot bridge are called from south to north for the same phenomenon, and mainly mean that when the building outer enclosure structure conducts heat with the outside, the heat transfer coefficient of some parts in the enclosure structure is obviously larger than that of other parts, so that the heat is intensively and quickly transferred from the parts, and the air conditioning, heating load and energy consumption of the building are increased. In the heat insulation structure of a house, the cold bridge and the heat bridge effect brought by the door and window openings, particularly the door and window frames, are far higher than those of other parts.

The prior art has the following defects: present building door and window structure is complicated relatively, and in general housing, especially the prefabricated housing, the cold bridge and the hot bridge effect at door and window frame position are serious to lead to the thermal insulation performance in house to descend, wasted a large amount of energy, be unfavorable for the popularization of prefabricated housing, in addition, mostly glue through filling structure during current building door and window installation, also can make the structure glue pine take off after long-time the use, make the direct exchange of indoor and outdoor production air lead to the thermal insulation performance in house to descend.

Therefore, there is a need for an upgrade and retrofit based on existing building doors and windows to overcome the existing problems and deficiencies.

SUMMERY OF THE UTILITY MODEL

Therefore, the utility model provides a low energy consumption building door and window heat preservation structure, it is complicated relatively to aim at solving current building door and window structure, general housing construction, among the assembly type housing construction especially, the cold bridge and the hot bridge effect at door and window frame position are serious, thereby the thermal insulation performance in house has descended, a large amount of energy has been wasted, be unfavorable for assembly type housing construction's popularization, in addition, it glues through the filling structure mostly when current building door and window installs, also can make the structure glue pine take off after long-time the use, make the indoor and outdoor direct exchange that produces the air lead to the problem that the thermal insulation performance in house descends.

In order to achieve the above object, the present invention provides the following technical solutions: a low-energy-consumption heat-insulating structure for building door and window openings comprises an installation wall body, an aluminum alloy frame and hollow glass, wherein the aluminum alloy frame is movably embedded in the installation wall body, the hollow glass is clamped and arranged in the aluminum alloy frame, fixing bolts are inserted into the surface of the aluminum alloy frame, a first screw hole is formed in the aluminum alloy frame in a penetrating mode, a fixing block is fixedly connected to the rear end of an opening of the installation wall body, a second screw hole is formed in the surface of the fixing block, the fixing block is divided into a building material layer, a first heat-insulating layer, a second heat-insulating layer and a pasting layer, the first heat-insulating layer is pasted on the surface of the building material layer, the second heat-insulating layer is arranged on one surface, away from the building material layer, of the first heat-insulating layer, the pasting layer is pasted between the second heat-insulating layer and the first heat-insulating layer, a sealing gasket is pasted on, the surface of the clamping seat is respectively provided with a sealing clamping groove and a drying groove, the drying grooves are located in the middle of the two sealing clamping grooves, and a hollow cavity is formed between the hollow glass.

Preferably, a groove is formed between the fixing block and the installation wall, and the aluminum alloy frame is movably embedded in the groove.

Preferably, the aluminum alloy frame is detachably connected with the fixing block through a fixing bolt, and the fixing bolt is sequentially inserted into the first screw hole and the second screw hole in a threaded manner.

Preferably, the fixing bolt, the first screw hole and the second screw hole are all located on the same axis, and the shapes of the openings of the first screw hole and the second screw hole are identical.

Preferably, the sealing washer is pasted on the inner wall of the opening of the installation wall body through the gel coat, the other side of the sealing washer is movably attached to the rear end face of the aluminum alloy frame, and the sealing washer is made of silica gel.

Preferably, first heat preservation and second heat preservation are through pasting the fixed laminating in layer, first heat preservation is polyurethane foam's first heat preservation, the second heat preservation is PU inorganic composite's second heat preservation.

Preferably, the hollow glass is provided with two layers, the two layers of hollow glass are movably clamped with the clamping seat through a sealing clamping groove, and the sealing clamping groove is made of rubber.

Preferably, the hollow cavity is formed by a gap between two layers of hollow glass, and the drying groove is filled with a drying agent.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses a low energy consumption building door and window mouth insulation construction:

1. the utility model discloses a set up fixing bolt and fixed block, support the aluminum alloy frame to the fixed block, and rotatory fixing bolt passes first screw and second screw in proper order, can make aluminum alloy frame and installation wall connection, install convenient and fast more, the construction process has been simplified, in addition, when aluminum alloy frame supports tight fixed block, seal ring utilizes its self resilience, can fill the gap between the two, aluminum alloy frame gas tightness all around has been guaranteed, this low energy consumption building door and window mouth insulation construction's thermal insulation performance has effectively been promoted.

2. The utility model discloses a set up first heat preservation and second heat preservation, set up two-layer insulation material simultaneously, cooperation seal ring's airtight heat preservation effect has further promoted this low energy consumption building door and window insulation construction's heat preservation performance, and simultaneously, polyurethane foam's first heat preservation sets up inside the fixed block, can prevent effectively that first heat preservation is ageing, has ageing-resistant, the deformation coefficient is little, stability is good, the security is good, the advantage of difficult burning.

3. The utility model discloses a set up cavity glass, drying tank and well cavity, through two-layer cavity glass, its heat preservation effect of promotion that can be better places the drier to the drying tank during installation, can absorb the moisture of cavity intracavity, prevents that steam atomization from causing the inside problem that is difficult to the clearance of cavity glass, has effectively promoted its practicality.

Drawings

Fig. 1 is a schematic view of the overall structure provided by the present invention;

fig. 2 is a schematic view of the structure of the installation wall provided by the present invention;

fig. 3 is a schematic view of the cross-sectional structure of the fixing block provided by the present invention;

FIG. 4 is a schematic view of the cross-sectional structure of the aluminum alloy frame provided by the present invention;

FIG. 5 is a schematic view of a clamping seat structure provided by the present invention;

in the figure: 1. installing a wall body; 2. an aluminum alloy frame; 3. hollow glass; 4. fixing the bolt; 5. a first screw hole; 6. a fixed block; 601. building material layer; 602. a first insulating layer; 603. a second insulating layer; 604. a bonding layer; 7. a second screw hole; 8. a sealing gasket; 9. a clamping seat; 10. sealing the clamping groove; 11. a drying tank; 12. and a hollow cavity.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are presented herein only to illustrate and explain the present invention, and not to limit the present invention.

Embodiment 1, referring to fig. 1-5, the utility model provides a low energy consumption thermal insulation structure for building door and window openings, which comprises a mounting wall 1, an aluminum alloy frame 2 and a hollow glass 3, wherein the aluminum alloy frame 2 is movably embedded inside the mounting wall 1, the hollow glass 3 is clamped inside the aluminum alloy frame 2, a fixing bolt 4 is inserted into the surface of the aluminum alloy frame 2, a first screw hole 5 is arranged inside the aluminum alloy frame 2, a fixing block 6 is fixedly connected to the rear end of the opening of the mounting wall 1, a second screw hole 7 is arranged on the surface of the fixing block 6, the fixing block 6 is divided into a building material layer 601, a first thermal insulation layer 602, a second thermal insulation layer 603 and an adhesive layer 604, the first thermal insulation layer 602 is attached to the surface of the building material layer 601, the second thermal insulation layer 603 is arranged on the surface of the first thermal insulation layer 602 away from the building material layer 601, and the adhesive layer 604 is attached between the second thermal insulation layer 603, a sealing gasket 8 is attached to the front surface of the fixing block 6, a clamping seat 9 is movably embedded in the aluminum alloy frame 2, a sealing clamping groove 10 and a drying groove 11 are respectively formed in the surface of the clamping seat 9, the drying groove 11 is located in the middle of the two sealing clamping grooves 10, and a hollow cavity 12 is formed between the hollow glasses 3;

the utility model discloses a use as follows: when the utility model is used, firstly, the clamping seat 9 is sequentially embedded into the aluminum alloy frame 2, and the drying agent is placed in the drying groove 11, then the hollow glass 3 is respectively clamped into the sealing clamping groove 10, the installation of the door and window structure is completed, the heat preservation effect can be better improved through the two layers of hollow glass 3, the drying agent is placed in the drying groove 11 during the installation, the moisture in the hollow cavity 12 can be absorbed, the problem that the inside of the hollow glass 3 is difficult to clean due to the steam atomization is prevented, then, the first heat preservation layer 602, the sticking layer 604 and the second heat preservation layer 603 are sequentially adhered to the surface of the building material layer 601, simultaneously, two layers of heat preservation materials are arranged, the airtight heat preservation effect of the sealing washer 8 is matched, the heat preservation performance is improved, meanwhile, the first heat preservation layer 602 of the polyurethane foam material is arranged inside the fixing block 6, the aging of the first heat preservation layer 602 can be effectively prevented, and inlay aluminum alloy frame 2 in installing wall body 1, make aluminum alloy frame 2 and fixed block 6 contact, first screw 5 overlaps with second screw 7 simultaneously, screw in first screw 5 and second screw 7 in proper order with fixing bolt 4, make aluminum alloy frame 2 and fixed block 6 fixed, and then accomplish this low energy consumption building door and window heat preservation structure's integral erection, the installation is convenient and fast more, the construction process is simplified, in addition, when aluminum alloy frame 2 supports tight fixed block 6, seal ring 8 utilizes its self resilience, can fill the gap between the two, the gas tightness around aluminum alloy frame 2 has been guaranteed.

Embodiment 2, the utility model provides a low energy consumption building door and window mouth insulation construction, different with embodiment 1 is:

referring to the attached drawing 1 of the specification, the low-energy-consumption building door and window heat-insulating structure of the embodiment comprises a mounting wall body 1, an aluminum alloy frame 2 and hollow glass 3, wherein the aluminum alloy frame 2 is movably embedded inside the mounting wall body 1, the hollow glass 3 is clamped and arranged inside the aluminum alloy frame 2, a fixing bolt 4 is inserted into the surface of the aluminum alloy frame 2, a first screw hole 5 is arranged inside the aluminum alloy frame 2 in a penetrating manner, a fixing block 6 is fixedly connected to the rear end of an opening of the mounting wall body 1, a groove is formed between the fixing block 6 and the mounting wall body 1, the aluminum alloy frame 2 is movably embedded in the groove, a second screw hole 7 is arranged on the surface of the fixing block 6, the fixing bolt 4, the first screw hole 5 and the second screw hole 7 are all positioned at the same axis, the shapes of the openings of the first screw hole 5 and the second screw hole 7 are, the fixing bolt 4 is inserted in the first screw hole 5 and the second screw hole 7 in turn, and the fixing block 6 is divided into a building material layer 601, a first heat preservation layer 602, a second heat preservation layer 603 and a paste layer 604, the first heat preservation layer 602 is adhered to the surface of the building material layer 601, the second heat preservation layer 603 is arranged on the surface of the first heat preservation layer 602 far away from the building material layer 601, the paste layer 604 is adhered between the second heat preservation layer 603 and the first heat preservation layer 602, the first heat preservation layer 602 and the second heat preservation layer 603 are fixedly adhered through the paste layer 604, the first heat preservation layer 602 is a first heat preservation layer 602 made of polyurethane foam material, the second heat preservation layer 603 is a second heat preservation layer 603 made of PU inorganic composite material, a sealing washer 8 is adhered to the front surface of the fixing block 6, the sealing washer 8 is adhered to the inner wall of the opening of the mounting wall 1 through a gel coat, and the other side of the sealing washer 8 is movably adhered to, seal ring 8 is seal ring 8 of silica gel material, aluminum alloy frame 2's inside activity is inlayed and is had joint seat 9, sealed joint groove 10 and drying tank 11 have been seted up respectively to joint seat 9's surface, cavity glass 3 is provided with two-layer, and two-layer cavity glass 3 is through sealed joint groove 10 and joint seat 9 activity joint, sealed joint groove 10 is the sealed joint groove 10 of rubber material, drying tank 11 is located the intermediate position in two sealed joint grooves 10, be formed with well cavity 12 between the cavity glass 3, well cavity 12 is formed by the space between two-layer cavity glass 3, the intussuseption of drying tank 11 is filled with the drier.

The implementation scenario is specifically as follows: when the utility model is used, firstly, the clamping seat 9 is sequentially embedded into the aluminum alloy frame 2, and the drying agent is placed in the drying groove 11, then the hollow glass 3 is respectively clamped into the sealing clamping groove 10, the installation of the door and window structure is completed, the heat insulation effect can be better improved through the two layers of hollow glass 3, the drying agent is placed in the drying groove 11 during the installation, the moisture in the hollow cavity 12 can be absorbed, the problem that the interior of the hollow glass 3 is difficult to clean due to the atomization of the moisture is prevented, the practicability of the structure is effectively improved, then, the first heat insulation layer 602, the sticking layer 604 and the second heat insulation layer 603 are sequentially attached to the surface of the building material layer 601, two layers of heat insulation materials are simultaneously arranged, the airtight heat insulation effect of the sealing washer 8 is matched, the heat insulation performance of the low-energy consumption building door and window heat insulation structure is further improved, and meanwhile, the first heat insulation layer 602 of the polyurethane foam material is arranged in the fixing block 6, the first heat preservation layer 602 can be effectively prevented from aging, and the low-energy-consumption building door and window heat preservation structure has the advantages of aging resistance, small deformation coefficient, good stability, good safety and difficult combustion, the aluminum alloy frame 2 is embedded into the installation wall body 1, the aluminum alloy frame 2 is enabled to be in contact with the fixed block 6, meanwhile, the first screw holes 5 are overlapped with the second screw holes 7, the fixing bolts 4 are sequentially screwed into the first screw holes 5 and the second screw holes 7, the aluminum alloy frame 2 is enabled to be fixed with the fixed block 6, the integral installation of the low-energy-consumption building door and window heat preservation structure is further completed, the installation is more convenient and rapid, the construction process is simplified, in addition, when the aluminum alloy frame 2 abuts against the fixed block 6, the sealing washer 8 utilizes the self resilience to fill the gap between the two, the air tightness around the aluminum alloy frame 2 is ensured, and the heat preservation performance.

The above is only a preferred embodiment of the present invention, and any person skilled in the art may modify the present invention or modify it into an equivalent technical solution by using the technical solutions described above. Therefore, any simple modifications or equivalent replacements made according to the technical solution of the present invention belong to the scope of the claimed invention as far as possible.

Claims (8)

1. The utility model provides a low energy consumption building door and window mouthful insulation construction, includes installation wall body (1), aluminum alloy frame (2) and cavity glass (3), its characterized in that: the aluminum alloy frame (2) is movably embedded in the installation wall body (1), the hollow glass (3) is clamped and arranged in the aluminum alloy frame (2), the fixing bolt (4) is inserted into the surface of the aluminum alloy frame (2), the first screw hole (5) is arranged in the aluminum alloy frame (2) in a penetrating mode, the fixing block (6) is fixedly connected to the rear end of the opening of the installation wall body (1), the second screw hole (7) is formed in the surface of the fixing block (6), the fixing block (6) is divided into a building material layer (601), a first heat preservation layer (602), a second heat preservation layer (603) and a pasting layer (604), the first heat preservation layer (602) is pasted on the surface of the building material layer (601), the second heat preservation layer (603) is arranged on the first heat preservation layer (602) and far away from the building material layer (601), and the pasting layer (604) is pasted between the second heat preservation layer (603) and the first heat preservation layer (602), the laminating of the front surface of fixed block (6) has seal ring (8), the inside activity of aluminum alloy frame (2) is inlayed and is had joint seat (9), sealed joint groove (10) and drying bath (11) have been seted up respectively to the surface of joint seat (9), drying bath (11) are located the intermediate position in two sealed joint grooves (10), be formed with well cavity (12) between cavity glass (3).

2. The low energy consumption thermal insulation structure for door and window openings of buildings according to claim 1, which is characterized in that: a groove is formed between the fixing block (6) and the installation wall body (1), and the aluminum alloy frame (2) is movably embedded in the groove.

3. The low energy consumption thermal insulation structure for door and window openings of buildings according to claim 1, which is characterized in that: aluminum alloy frame (2) and fixed block (6) are through fixing bolt (4) detachable connection, fixing bolt (4) screw thread interlude in the inside of first screw (5) and second screw (7) in proper order.

4. The low energy consumption thermal insulation structure for door and window openings of buildings according to claim 1, which is characterized in that: the fixing bolt (4), the first screw hole (5) and the second screw hole (7) are all located on the same axis, and the shapes of openings of the first screw hole (5) and the second screw hole (7) are identical.

5. The low energy consumption thermal insulation structure for door and window openings of buildings according to claim 1, which is characterized in that: seal ring (8) are pasted in the opening part inner wall of installation wall body (1) through the gel coat, and the another side of seal ring (8) and the rear end face activity laminating of aluminum alloy frame (2), seal ring (8) are seal ring (8) of silica gel material.

6. The low energy consumption thermal insulation structure for door and window openings of buildings according to claim 1, which is characterized in that: first heat preservation (602) and second heat preservation (603) are through pasting fixed laminating of layer (604), first heat preservation (602) are polyurethane foam's first heat preservation (602), second heat preservation (603) are inorganic combined material's of PU second heat preservation (603).

7. The low energy consumption thermal insulation structure for door and window openings of buildings according to claim 1, which is characterized in that: the hollow glass (3) is provided with two layers, the two layers of hollow glass (3) are movably connected with the clamping seat (9) through the sealing clamping groove (10), and the sealing clamping groove (10) is made of rubber materials.

8. The low energy consumption thermal insulation structure for door and window openings of buildings according to claim 1, which is characterized in that: the hollow cavity (12) is formed by a gap between two layers of hollow glass (3), and the drying groove (11) is filled with a drying agent.

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