CN219138854U - Adhesive tape cladding embedded composite structure for aluminum-clad wood window sash - Google Patents

Abstract

The utility model discloses an adhesive tape cladding embedded composite structure for an aluminum-clad wood window sash, which relates to the technical field of door and window profiles and solves the problem that the aluminum-clad wood window sash is too wide.

Description

Adhesive tape cladding embedded composite structure for aluminum-clad wood window sash

Technical Field

The utility model relates to the technical field of door and window profiles, in particular to an adhesive tape cladding embedded composite structure for an aluminum-clad wood window sash.

Background

The aluminum-clad wood window is used as a window high-end product for a house decoration outer enclosure structure, and the advantages of the aluminum-clad wood window are gradually reduced compared with the aluminum alloy product which is extremely narrow, simple and slim in recent years. The reason is that aluminium package wood window uses timber as the atress main part, and the section bar is thicker wider just can guarantee intensity, and the section bar sees the face size great, and whole window light transmission area reduces relatively for whole window permeability reduces, and then influences indoor light quantity. The widest window and the most influencing permeability are the open sections, especially the open and fixed middle frame sections. However, extremely narrow, compact, slim window products have become the dominant trend in recent years, which is also the greatest disadvantage of aluminum clad wood windows compared to aluminum alloy windows.

Conventional aluminum wood leaves are composited by plastic clapping and connecting, as shown in fig. 3 and 4, a buckle machine is required to be used for punching buckles, the process is complex, and the input cost is increased. The glass is fixed by the glass outer side steel pressing plates, the pressing plates are pressed at intervals, and the glass is broken due to overlarge local stress. The clapping button is large in size, the width of the fan is occupied, the whole fan cannot be narrower, meanwhile, the aluminum wood consumption is increased, and the cost is increased. The structural glass is in friction connection with the aluminum-wood section through the adhesive tape, the connection reliability is poor, the glass and the aluminum-wood can be relatively displaced when the structural glass is ultrahigh and oversized, and further phenomena such as waist folding, belly swelling, bending, corner falling and the like of a fan are generated, and even phenomena such as air leakage and water leakage occur.

Disclosure of Invention

Aiming at the problem that the aluminum-clad wood window sash is too wide, the utility model aims to provide the adhesive tape cladding embedded composite structure for the aluminum-clad wood window sash.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

an adhesive tape cladding embedded composite structure for an aluminum clad wood window sash, comprising: the fan timber 1, outer knot aluminium 2, cavity glass 3 and sealant 5, the outer edge of fan timber 1 and the outer edge of outer knot aluminium 2 are connected, and the interior edge of inner edge and outer knot aluminium 2 through fan timber 1 carries out the centre gripping to the both sides of cavity glass 3, pass through between the indoor side of fan timber 1 and cavity glass 3 sealant 5 seals, pass through between the outdoor side of outer knot aluminium 2 and cavity glass 3 sealant 5 seals.

The adhesive tape cladding embedded composite structure for aluminum-clad wood window sash body, wherein the adhesive tape cladding embedded composite structure further comprises: the inner edge of the fan wood 1 is connected with the indoor side of the hollow glass 3 through the structural adhesive tape 4, and the inner edge of the outer buckle aluminum 2 is connected with the outdoor side of the hollow glass 3 through the structural adhesive tape 4.

The adhesive tape cladding embedded composite structure for the aluminum-clad wood window sash body, wherein the inner edge end 21 of the outer buckle aluminum 2 abuts against the outdoor side of the hollow glass 3, and the inner edge end 21 of the outer buckle aluminum 2 and the outdoor side of the hollow glass 3 are sealed through the sealant 5.

The adhesive tape cladding embedded composite structure for the aluminum-clad wood window sash body is characterized in that a limiting groove 11 is formed in the outdoor side of the sash wood 1, and the inner edge end 12 of the sash wood 1 and the indoor side of the hollow glass 3 are sealed through the sealant 5.

The adhesive tape cladding embedded composite structure for the aluminum-clad wood window fan body is characterized in that the outer buckle aluminum 2 is provided with the end connecting structure 23 matched with the limit groove 11, and the outer buckle aluminum 2 is connected with the fan wood 1 through the end connecting structure 23.

The adhesive tape cladding embedded composite structure for aluminum-clad wood window sash, wherein the end connecting structure 23 comprises: the connecting part is arranged in the limiting groove 11, the outer surface of the connecting part is provided with a fine thread structure facing the outdoor side, the side surface of the connecting part is provided with the limiting part, and the end part of the limiting part is propped against the outdoor side of the fan wood 1.

The adhesive tape cladding embedded composite structure for the aluminum-clad wood window sash body is characterized in that the cavity structure 22 is arranged on the outer buckle aluminum 2.

The adhesive tape cladding embedded composite structure for aluminum-clad wood window sash body, wherein the adhesive tape cladding embedded composite structure further comprises: the expansion adhesive tape 6, the expansion adhesive tape 6 cladding is in on the connecting portion, the expansion adhesive tape 6 embedding in the spacing groove 11.

The adhesive tape cladding embedded composite structure for aluminum-clad wood window sash body, wherein the adhesive tape cladding embedded composite structure further comprises: one adhesive tape 7, install on the fan timber 1 be used for with window frame sealed one adhesive tape 7.

The adhesive tape cladding embedded composite structure for aluminum-clad wood window sash body, wherein the adhesive tape cladding embedded composite structure further comprises: the two adhesive tapes 8 are arranged on the fanning timber 1, and the two adhesive tapes 8 used for sealing with a window frame are arranged on the fanning timber 1.

The utility model adopts the technology, so that compared with the prior art, the utility model has the positive effects that:

(1) In the utility model, the structure is suitable for all aluminum clad wood products, and annular bonding is adopted, so that fan wood, aluminum and glass are firmly integrated under the bonding effect, and the fan wood, aluminum and glass can be ultrahigh and are not deformed;

(2) Compared with the conventional clapping process, the structure reduces the size of the viewing width, can be used as an extremely narrow fan, reduces the cost, and increases the light transmission area of the fan body and the permeability of the whole window.

Drawings

FIG. 1 is a schematic diagram of a two-gradient ultra-narrow fan with an embedded composite structure covered by adhesive tape for an aluminum-clad wood window sash.

Fig. 2 is a schematic structural view of a three-gradient ultra-narrow fan with an embedded composite structure coated with adhesive tape for an aluminum-clad wood window sash.

Fig. 3 is a schematic diagram of a conventional two-gradient fan system.

Fig. 4 is a schematic structural view of a conventional three-gradient fan system.

In the accompanying drawings: 1. fan wood; 11. a limit groove; 2. aluminum is buckled outside; 21. an inner edge end; 3. hollow glass; 4. structural adhesive tape; 5. sealing glue; 6. expanding the adhesive tape; 7. a rubber strip; 8. two adhesive tapes.

Detailed Description

The utility model is further described below with reference to the drawings and specific examples, which are not intended to be limiting.

Referring to fig. 1 and 2, there is shown an adhesive tape coated embedded composite structure for an aluminum-clad wood window sash, comprising: the fan timber 1, outer knot aluminium 2, cavity glass 3 and sealant 5, the outer edge of fan timber 1 and the outer edge of outer knot aluminium 2 are connected, carry out the centre gripping to the both sides of cavity glass 3 through the inner edge of fan timber 1 and the inner edge of outer knot aluminium 2, seal through sealant 5 between the indoor side of fan timber 1 and cavity glass 3, seal through sealant 5 between the outdoor side of outer knot aluminium 2 and cavity glass 3.

Further, in a preferred embodiment, the method further comprises: the inner edge of the fan timber 1 is connected with the indoor side of the hollow glass 3 through the structural adhesive tape 4, and the inner edge of the outer buckle aluminum 2 is connected with the outdoor side of the hollow glass 3 through the structural adhesive tape 4.

Further, in a preferred embodiment, the inner edge end 21 of the outer aluminum button 2 abuts against the outdoor side of the hollow glass 3, and the inner edge end 21 of the outer aluminum button 2 and the outdoor side of the hollow glass 3 are sealed by the sealant 5.

Further, in a preferred embodiment, the outside of the fanning timber 1 is provided with a limit groove 11, and the inner edge end 12 of the fanning timber 1 and the inside of the hollow glass 3 are sealed by the sealant 5.

Further, in a preferred embodiment, the outer aluminum button 2 is provided with an end connection structure 23 matching with the limit groove 11, and the outer aluminum button 2 and the fanning wood 1 are connected by the end connection structure 23.

Further, in a preferred embodiment, the end connection structure 23 includes: the connecting part is arranged in the limiting groove 11, the outer surface of the connecting part is provided with a fine thread structure facing the outdoor side, the side surface of the connecting part is provided with a limiting part, and the end part of the limiting part is propped against the outdoor side of the fan wood 1.

Further, in a preferred embodiment, the aluminum button 2 is provided with a cavity structure 22.

Further, in a preferred embodiment, the method further comprises: the expansion adhesive tape 6, the expansion adhesive tape 6 cladding is on connecting portion, and the expansion adhesive tape 6 embedding limiting groove 11.

Further, in a preferred embodiment, the method further comprises: and the fan timber 1 is provided with a rubber strip 7 for sealing with a window frame.

Further, in a preferred embodiment, the method further comprises: two adhesive tapes 8, two adhesive tapes 8 used for sealing with window frames are arranged on the fanning timber 1.

The foregoing is merely a preferred embodiment of the present utility model, and is not intended to limit the embodiments and the protection scope of the present utility model.

The present utility model has the following embodiments based on the above description:

in a further embodiment of the present utility model, as shown in fig. 1 and fig. 3, the two-gradient ultra-narrow fan of the adhesive tape coated embedded composite structure is compared with a conventional two-gradient fan system, as shown in fig. 2 and fig. 4, the three-gradient ultra-narrow fan of the adhesive tape coated embedded composite structure is compared with a conventional three-gradient fan system, and the outer shapes of the conventional fan and the ultra-narrow fan are the same, i.e. the functions and performances between the frame fans are unchanged. Conventional aluminum wood leaves are connected and compounded by plastic clapping, a buckle machine is required to be used for buckling, the process is complex, and the input cost is further increased. The glass is fixed by the glass outer side steel pressing plates, the pressing plates are pressed at intervals, and the phenomenon of glass fragmentation caused by overlarge local stress occurs. The clapping button is large in size, the width of the fan is occupied, the whole fan cannot be narrower, meanwhile, the aluminum wood consumption is increased, and the cost is increased. The structural glass is in friction connection with the aluminum-wood section through the adhesive tape, the connection reliability is poor, the glass and the aluminum-wood can be relatively displaced when the structural glass is ultrahigh and oversized, and further phenomena such as waist folding, belly swelling, bending, corner falling and the like of a fan are generated, and even phenomena such as air leakage and water leakage occur.

In a further embodiment of the utility model, the fan-shaped wood aluminum adopts an adhesive tape cladding embedded composite structure, namely, the aluminum material outer opening circumference fine grain teeth of the outer buckle aluminum 2 are embedded into the notch of the fan-shaped wood 1 after being coated with the expansion adhesive tape 6, and the expansion adhesive tape 6 coated with the fine grain teeth ensures firm combination and simultaneously ensures the peripheral sealing of the fan-shaped wood aluminum through the expansion effect. The aluminum wood at the inner opening of the fan is adhered to the hollow glass 3 by adopting the high-strength double-sided adhesive tape 4 and the water-based sealant 5, namely, the annular adhesive structure is adopted, and the aluminum wood is combined by lightly knocking by using a rubber hammer, so that the assembly efficiency is high. The fan timber 1, the outer aluminum 2 and the hollow glass 3 are firmly integrated under the bonding effect, the whole bearing main body is the hollow glass 3, the fan timber 1 only plays an auxiliary role, the whole fan body can be ultra-high in size and cannot deform depending on the rigidity and strength of the hollow glass 3, the problem that a conventional aluminum-wood fan cannot be ultra-high in size and can bend and deform is solved, meanwhile, the fan stile of the conventional aluminum-wood fan is slim, the visual field is transparent, the problem that the conventional aluminum-wood fan section is large in surface size, the transparent area of the whole window is relatively reduced, the transparent rate of the whole window is reduced, and the indoor light quantity is influenced is solved. The structure subtracts the space occupied by the clapping buckle, so that the fan body is narrower and finer, the two-gradient fan width 51 can be compared with the width of an aluminum alloy window fan, the three-gradient fan width is smaller than that of a gradient conventional fan body, and the light transmittance of the same area is greatly increased.

In a further embodiment of the utility model, the structure is suitable for all aluminum clad wood products, and annular bonding is adopted, so that fan wood, aluminum and glass are firmly integrated under the bonding effect, and the fan wood, aluminum and glass can be ultrahigh and are not deformed;

in a further embodiment of the utility model, the structure reduces the width of the viewing surface compared with the conventional clapping process, can be used as an extremely narrow fan, reduces the cost, and increases the light transmission area of the fan body and the whole window permeability.

In a further embodiment of the utility model, the connecting part coated with the expansion adhesive tape 6 is embedded into the limit groove 11, the connection strength and the connection tightness of the fan timber 1 and the outer aluminum 2 are enhanced through the expansion action of the expansion adhesive tape 6, meanwhile, the outer surface of the connecting part of the end connecting structure 23 is provided with a fine grain tooth structure facing to the outdoor side, so that the fan timber 1 and the outer aluminum 2 are conveniently installed, the installation between the fan timber 1 and the outer aluminum 2 can be completed by lightly knocking with a rubber hammer, and meanwhile, the connection strength of the fan timber 1 and the outer aluminum 2 is enhanced by the fine grain tooth structure opposite to the outer aluminum 2, and the fact that looseness between the outer aluminum 2 and the fan timber 1 is not generated is ensured.

In a further embodiment of the utility model, both sides of the connecting part are provided with limiting parts, the end parts of the limiting parts are propped against the outdoor side of the fan timber 1, so that the distance between the inner edge of the fan timber 1 and the inner edge of the outer buckling aluminum 2 is ensured, the outer buckling aluminum 2 is supported by the fan timber 1, and the phenomenon that the glass breakage phenomenon occurs due to overlarge local stress caused by the hollow glass 3 under the action of the outer buckling aluminum 2 is avoided.

In a further embodiment of the utility model, the cavity structure 22 is arranged on the outer buckle aluminum 2, so that the effects of blocking air and water are achieved while the outer buckle aluminum 2 is lightened, and phenomena such as air leakage and water leakage are avoided.

The foregoing is merely illustrative of the preferred embodiments of the present utility model and is not intended to limit the embodiments and scope of the present utility model, and it should be appreciated by those skilled in the art that equivalent substitutions and obvious variations may be made using the description and illustrations of the present utility model, and are intended to be included in the scope of the present utility model.

Claims (10)

1. An adhesive tape cladding embedded composite construction for on aluminium package wood window fan body, characterized in that includes: the fan wood (1), outer knot aluminium (2), cavity glass (3) and sealant (5), the outer edge of fan wood (1) is connected with the outer edge of outer knot aluminium (2), carries out the centre gripping through the both sides of cavity glass (3) along the interior edge of fan wood (1) and outer knot aluminium (2), pass through between the indoor side of fan wood (1) and cavity glass (3) sealant (5) seal, pass through between the outdoor side of outer knot aluminium (2) and cavity glass (3) sealant (5) seal.

2. The adhesive tape coated embedded composite structure for use on aluminum clad wood window sashes of claim 1 further comprising: the inner edge of the fan wood (1) is connected with the indoor side of the hollow glass (3) through the structural adhesive tape (4), and the inner edge of the outer buckle aluminum (2) is connected with the outdoor side of the hollow glass (3) through the structural adhesive tape (4).

3. The adhesive tape cladding embedded composite structure for aluminum-clad wood window sash according to claim 1, wherein the inner edge end (21) of the outer aluminum button (2) abuts against the outdoor side of the hollow glass (3), and the inner edge end (21) of the outer aluminum button (2) and the outdoor side of the hollow glass (3) are sealed by the sealant (5).

4. The adhesive tape cladding embedded composite structure for an aluminum-clad wood window sash according to claim 1, wherein a limiting groove (11) is formed on the outdoor side of the sash wood (1), and the inner edge end (12) of the sash wood (1) and the indoor side of the hollow glass (3) are sealed by the sealant (5).

5. The adhesive tape cladding embedded composite structure for an aluminum-clad wood window sash according to claim 4, wherein an end connecting structure (23) matched with a limit groove (11) is arranged on the outer buckling aluminum (2), and the outer buckling aluminum (2) and the sash wood (1) are connected through the end connecting structure (23).

6. The strip coated embedded composite structure for use on aluminum clad wood window panes of claim 5, wherein the end connection structure (23) comprises: the connecting part is arranged in the limiting groove (11), the outer surface of the connecting part is provided with a fine thread structure facing the outdoor side, the side face of the connecting part is provided with the limiting part, and the end part of the limiting part is propped against the outdoor side of the fan wood (1).

7. The adhesive tape cladding embedded composite structure for aluminum clad wood window sash according to claim 6, wherein a cavity structure (22) is provided on the outer fastening aluminum (2).

8. The adhesive tape coated embedded composite structure for use on aluminum clad wood window sashes of claim 7 further comprising: the expansion adhesive tape (6), the cladding of expansion adhesive tape (6) is in on the connecting portion, expansion adhesive tape (6) embedding in spacing groove (11).

9. The adhesive tape coated embedded composite structure for use on aluminum clad wood window sashes of claim 1 further comprising: one adhesive tape (7), install on fan timber (1) be used for with window frame sealed one adhesive tape (7).

10. The adhesive tape coated embedded composite structure for use on aluminum clad wood window sashes of claim 1 further comprising: and the two adhesive tapes (8) are arranged on the sash timber (1), and the two adhesive tapes (8) used for sealing the window frame are arranged on the sash timber (1).

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