CN216841318U - Door and window sound insulation structure - Google Patents

Abstract

The utility model discloses a door and window sound insulation structure which comprises two glass doors and windows connected through a connecting section bar, wherein the connecting section bar is composed of a first aluminum alloy mullion section bar, a second aluminum alloy mullion section bar, a first aluminum alloy inward-opening sash section bar and a second aluminum alloy inward-opening sash section bar, sound insulation cavities are formed in the first aluminum alloy mullion section bar, the second aluminum alloy mullion section bar, the first aluminum alloy inward-opening sash section bar and the second aluminum alloy inward-opening sash section bar, and first sound insulation cotton slivers are installed in the sound insulation cavities. The sound insulation device has the advantages that the sound insulation cavities are used for sound insulation, and the first sound insulation cotton strip is arranged in each sound insulation cavity, so that the sound insulation device has the advantage of good sound insulation effect.

Description

Door and window sound insulation structure

Technical Field

The utility model relates to a door and window sound insulation device, in particular to a door and window sound insulation structure.

Background

The aluminum alloy window is a window with frame and sash structures made of aluminum alloy building profiles, is divided into a common aluminum alloy window and door and a bridge-cut aluminum alloy window and door, has attractive appearance, high sealing performance and high strength, is widely applied to the field of building engineering, is used for sealing a balcony in home decoration, and is oxidized, smooth and shiny on the surface of aluminum alloy. The window sash frame is large, glass with a large area can be embedded, indoor light is sufficient and bright, the virtual-real contrast of vertical surfaces between the indoor space and the outdoor space is enhanced, and a room is rich in layers. The aluminum alloy is easy to extrude, the cross section of the section bar is accurate in size, and the processing accuracy is high, so that aluminum alloy doors and windows are selected by many owners in decoration.

With the continuous development of society and the continuous progress of the living standard of people, most of conventional aluminum alloy window sashes are single cavities, although the structure is simple, the sound insulation effect is weak, and the use requirements of people cannot be met. Therefore, we improve this and propose a door and window sound insulation structure.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems, the utility model provides the following technical scheme:

the utility model relates to a door and window sound insulation structure which comprises two glass doors and windows connected through a connecting section, wherein the connecting section is formed by connecting a first aluminum alloy mullion section, a second aluminum alloy mullion section, a first aluminum alloy inward-opening sash section and a second aluminum alloy inward-opening sash section, sound insulation cavities are formed in the first aluminum alloy mullion section, the second aluminum alloy mullion section, the first aluminum alloy inward-opening sash section and the second aluminum alloy inward-opening sash section, and first sound insulation cotton slivers are installed in the sound insulation cavities.

As a preferred technical scheme, a plurality of first heat-insulating adhesive tapes are arranged between the first aluminum alloy mullion section and the second aluminum alloy mullion section, the first heat-insulating adhesive tapes, the first aluminum alloy mullion section and the second aluminum alloy mullion section are enclosed to form a first installation cavity, and a second sound-insulating cotton strip is arranged in the first installation cavity.

As a preferred technical scheme of the utility model, the periphery of the second sound insulation cotton strip is provided with a first limiting convex strip, and the first aluminum alloy mullion section, the second aluminum alloy mullion section and the first heat insulation rubber strip are respectively provided with a first limiting groove for the first limiting convex strip to penetrate.

As a preferred technical scheme of the utility model, a plurality of second heat-insulating adhesive tapes are arranged between the first aluminum alloy inward-opening sash profile and the second aluminum alloy inward-opening sash profile, the second heat-insulating adhesive tapes, the first aluminum alloy inward-opening sash profile and the second aluminum alloy inward-opening sash profile enclose to form a second mounting cavity, and a third sound-insulating cotton sliver is arranged in the second mounting cavity.

As a preferred technical scheme of the present invention, a second limiting convex strip is arranged on the periphery of the third sound insulation cotton strip, and second limiting grooves for the second limiting convex strip to penetrate are arranged on the first aluminum alloy inward-opening sash section, the second aluminum alloy inward-opening sash section and the second heat insulation rubber strip.

As a preferable technical scheme of the utility model, a compaction heat insulation rubber strip is arranged on the second heat insulation rubber strip.

As a preferred technical scheme of the utility model, a first fixture block is arranged on the compression heat-insulation adhesive tape, a first clamping groove for the first fixture block to be clamped is arranged on the first heat-insulation adhesive tape, a compression strip which is arranged in a bent manner is arranged at the end part of the compression heat-insulation adhesive tape, and a pressing strip which presses the compression strip to perform compression and lamination is arranged on the second heat-insulation adhesive tape.

The beneficial effects of the utility model are:

this door and window sound-insulating structure adopts that a plurality of syllable-dividing cavitys give sound insulation, and is provided with first syllable-dividing silver in every syllable-dividing cavity to have syllable-dividing effectual characteristics. In addition, the second sound insulation cotton strip is arranged in the first installation cavity formed by the first heat insulation rubber strip, the first aluminum alloy middle support section and the second aluminum alloy middle support section in an enclosing mode, and the third sound insulation cotton strip is arranged in the second installation cavity formed by the second heat insulation rubber strip, the first aluminum alloy inner support section and the second aluminum alloy inner support section in an enclosing mode, so that the sound insulation effect is effectively improved, a certain sound insulation effect is achieved, and the whole body is guaranteed to have a high heat insulation and sound insulation effect.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model and not to limit the utility model. In the drawings:

FIG. 1 is a schematic view of a door and window sound-insulating structure according to the present invention;

fig. 2 is a schematic structural view of a first installation cavity of a sound-insulating structure for doors and windows according to the present invention;

FIG. 3 is a partial structural view of a soundproof structure for doors and windows according to the utility model;

FIG. 4 is a schematic view of a compression heat-insulating rubber strip of a door and window sound-insulating structure according to the present invention;

fig. 5 is a schematic view illustrating a second soundproof sliver of a soundproof structure for doors and windows according to the present invention;

fig. 6 is a schematic view illustrating the structure of a third soundproof sliver of a soundproof structure for doors and windows according to the present invention.

In the figure: 1. glass doors and windows; 2. a first aluminum alloy mullion section; 3. a second aluminum alloy mullion section; 4. a first aluminum alloy inwardly opened sash profile; 5. a second aluminum alloy inward-opening sash profile; 6. a sound-insulating cavity; 7. a first sound insulating tampon; 8. a first heat insulation adhesive tape; 9. a first mounting cavity; 10. a second sound-insulating cotton sliver; 11. a first limit convex strip; 12. a second heat insulation rubber strip; 13. a second mounting cavity; 14. a third sound-insulating cotton sliver; 15. a second limit convex strip; 16. a first limit groove; 17. compressing the heat insulation rubber strip; 18. a first clamping block; 19. a first card slot; 20. compressing the strips; 21. applying a pressing strip; 22. first aluminum alloy pressing lines; 23. a second limit groove; 24. a first adhesive tape; 25. a second adhesive tape; 26. sealing and connecting an adhesive tape; 27. mounting a clamping block; 28. a first card slot; 29. a heat-insulating sealing rubber strip; 30. embedding a card strip; 31. a second card slot; 32. an elastic sealing rubber strip; 33. a limiting clamping groove; 34. and pressing a second aluminum alloy line.

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 described herein for the purpose of illustration and explanation and not limitation.

Example (b): as shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5 and fig. 6, the sound insulation structure for doors and windows of the present invention comprises two glass doors and windows 1 connected by a connecting section, wherein the connecting section is formed by connecting a first aluminum alloy mullion section 2, a second aluminum alloy mullion section 3, a first aluminum alloy inward-opening sash section 4 and a second aluminum alloy inward-opening sash section 5, a first aluminum alloy pressing line 22 is provided at an end of the first aluminum alloy mullion section 2, so that a first socket for pressing in an end of the glass door or window 1 is formed between the second aluminum alloy mullion section 3 and the first aluminum alloy pressing line 22, a second aluminum alloy pressing line 34 is provided at an end of the first aluminum alloy inward-opening sash section 4, so that a second socket for pressing in an end of the glass door or window 1 is formed between the second aluminum alloy inward-opening sash section 5 and the second aluminum alloy pressing line 34, wherein the glass door or window 1 is pressed into the first socket in a compressed state by a first adhesive tape 24 and a second adhesive tape 25, thereby realize connecting the work of being connected location of section bar and glass door and window 1, sealing connection adhesive tape 26 is installed to the junction of first aluminum alloy muntin section bar 2, second aluminum alloy muntin section bar 3, first aluminum alloy inwardly opened casement section bar 4 and second aluminum alloy inwardly opened casement section bar 5, and this technique has obtained the wide application in the realization door and window field, therefore concrete details are not repeated herein, belongs to the technique that technical staff in the field known.

All be equipped with syllable-dividing cavity 6 in first aluminum alloy muntin section bar 2, second aluminum alloy muntin section bar 3, the interior casement section bar 4 of first aluminum alloy and the interior casement section bar 5 of second aluminum alloy, install first syllable-dividing silver 7 in the syllable-dividing cavity 6, first syllable-dividing silver 7 is the rock wool material, has better thermal-insulated and syllable-dividing effect.

Install a plurality of first thermal-insulated adhesive tapes 8 between first aluminum alloy muntin section bar 2 and the second aluminum alloy muntin section bar 3, and first thermal-insulated adhesive tape 8, first aluminum alloy muntin section bar 2 and the first installation cavity 9 of second aluminum alloy muntin section bar 3 enclosure formation, install the syllable-dividing silver 10 of second in the first installation cavity 9, the syllable-dividing silver 10 of second is the rock wool material, under the effect of first syllable-dividing silver 7 and the syllable-dividing silver 10 of second, make the connecting profile have better syllable-dividing thermal-insulated effect.

The periphery on the second sound insulation silver 10 is equipped with first spacing sand grip 11, all is equipped with first spacing recess 16 that supplies spacing sand grip 11 to penetrate on first aluminum alloy muntin section bar 2, second aluminum alloy muntin section bar 3 and the first thermal-insulated adhesive tape 8, is convenient for penetrate second sound insulation silver 10 in first installation cavity 9.

A plurality of second heat-insulating adhesive tapes 12 are arranged between the first aluminum alloy inward-opening sash section bar 4 and the second aluminum alloy inward-opening sash section bar 5, the second heat-insulating adhesive tapes 12, the first aluminum alloy inward-opening sash section bar 4 and the second aluminum alloy inward-opening sash section bar 5 are enclosed to form a second mounting cavity 13, a third sound-insulating cotton sliver 14 is arranged in the second mounting cavity 13, and a third sound-insulating cotton sliver 14 is arranged between the first aluminum alloy inward-opening sash section bar 4 and the second aluminum alloy inward-opening sash section bar 5, so that the connecting section bar has better sound-insulating and heat-insulating effects.

In the actual processing process, the end portions of the first heat-insulating adhesive tape 8 and the second heat-insulating adhesive tape 12 are provided with mounting fixture blocks 27, and the first aluminum alloy mullion profile 2, the second aluminum alloy mullion profile 3, the first aluminum alloy inward-opening sash profile 4 and the second aluminum alloy inward-opening sash profile 5 are respectively provided with a first clamping groove 28 for clamping the mounting fixture blocks 27.

And all be equipped with thermal-insulated joint strip 29 between the first thermal-insulated adhesive tape 8 in the outside and between the thermal-insulated adhesive tape 12 of the second in the outside and the glass door and window 1, be equipped with embedding card strip 30 on the thermal-insulated joint strip 29, all be equipped with the second draw-in groove 31 that supplies embedding card strip 30 card to go into on the first thermal-insulated adhesive tape 8 and the thermal-insulated adhesive tape 12 of second, the elastic sealing adhesive tape 32 that sets up is buckled to thermal-insulated joint strip 29, supplies the spacing draw-in groove 33 of elastic sealing adhesive tape 32 tip embedding on the very section bar 3 in the open-leaf section bar 5 in the second aluminum alloy and the second aluminum alloy.

The periphery on the third sound-insulating cotton strip 14 is provided with a second limit convex strip 15, and the first aluminum alloy inward-opening sash section bar 4, the second aluminum alloy inward-opening sash section bar 5 and the second heat-insulating rubber strip 12 are respectively provided with a second limit groove 23 for the second limit convex strip 15 to penetrate into, so that the third sound-insulating cotton strip 14 can penetrate into the second installation cavity 13 conveniently.

Be equipped with between the heat-insulating adhesive tape 12 of innermost neighbouring second and the heat-insulating adhesive tape 8 and compress tightly heat-insulating adhesive tape 17, come to carry out sealed sound insulation to heat-insulating adhesive tape 12 of second and heat-insulating adhesive tape 8 to ensure that whole joining profile has better thermal-insulated effect of giving sound insulation.

It is equipped with first fixture block 18 on the thermal-insulated adhesive tape 17 to compress tightly, be equipped with the first draw-in groove 19 that supplies first fixture block 18 card to go into on the first thermal-insulated adhesive tape 8, the tip that compresses tightly thermal-insulated adhesive tape 17 is equipped with the compressing strip 20 that the bending set up, be equipped with on the second thermal-insulated adhesive tape 12 and exert pressure strip 21 that compresses tightly the laminating to compressing strip 20, wherein after installing the connecting profile, the strip 21 of exerting pressure exerts pressure to compressing strip 20 that compresses tightly the tip of thermal-insulated adhesive tape 17, make compressing strip 20 closely laminate with the strip 21 of exerting pressure closely, thereby have better sealed syllable-dividing effect between the two.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the utility model. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The utility model provides a door and window sound-insulating structure, includes two glass door and window (1) connected through connecting section bar, connecting section bar comprises in first aluminum alloy muntin section bar (2), second aluminum alloy muntin section bar (3), first aluminum alloy casement section bar (4) and the second aluminum alloy casement section bar (5), its characterized in that: all be equipped with syllable-dividing cavity (6) in first aluminum alloy muntin section bar (2), second aluminum alloy muntin section bar (3), the first aluminum alloy inwardly opened fan section bar (4) and the second aluminum alloy inwardly opened fan section bar (5), install first syllable-dividing silver (7) in the cavity that gives sound insulation (6).

2. The door and window sound insulation structure according to claim 1, wherein a plurality of first heat insulation rubber strips (8) are arranged between the first aluminum alloy mullion section (2) and the second aluminum alloy mullion section (3), the first heat insulation rubber strips (8), the first aluminum alloy mullion section (2) and the second aluminum alloy mullion section (3) are enclosed to form a first installation cavity (9), and a second sound insulation cotton sliver (10) is arranged in the first installation cavity (9).

3. The door and window sound insulation structure according to claim 2, wherein a first limiting convex strip (11) is arranged on the second sound insulation cotton strip (10), and first limiting grooves (16) for the first limiting convex strip (11) to penetrate are formed in the first aluminum alloy mullion section (2), the second aluminum alloy mullion section (3) and the first heat insulation rubber strip (8).

4. The door and window sound insulation structure according to claim 1, wherein a plurality of second heat insulation rubber strips (12) are installed between the first aluminum alloy inwardly opened sash profile (4) and the second aluminum alloy inwardly opened sash profile (5), the second heat insulation rubber strips (12), the first aluminum alloy inwardly opened sash profile (4) and the second aluminum alloy inwardly opened sash profile (5) enclose to form a second installation cavity (13), and a third sound insulation cotton sliver (14) is installed in the second installation cavity (13).

5. The door and window sound insulation structure according to claim 4, wherein a second limit protruding strip (15) is provided on the third sound insulation cotton sliver (14), and a second limit groove (23) for the second limit protruding strip (15) to penetrate is provided on each of the first aluminum alloy inwardly opened sash profile (4), the second aluminum alloy inwardly opened sash profile (5), and the second heat insulation rubber strip (12).

6. The door and window sound insulation structure according to claim 4 or 5, wherein the second heat insulation rubber strip (12) is provided with a compression heat insulation rubber strip (17), and the compression heat insulation rubber strip (17) is provided with a first clamping block (18) and a compression strip (20).

7. The door and window sound insulation structure according to claim 2, wherein the first heat insulation rubber strip (8) is provided with a first clamping groove (19).

8. The door and window sound-insulating structure according to claim 4 or 5, wherein the second heat-insulating rubber strip (12) is provided with a pressing strip (21).

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