CN214403327U - Sound-insulation bridge-cut-off aluminum alloy casement window - Google Patents

Abstract

The utility model relates to a bridge cut-off aluminum alloy flat-open window gives sound insulation relates to the field of aluminum alloy window, including window frame and casement, the casement is installed in the window frame, has seted up a plurality of first sound insulation chambeies in the window frame, and first sound insulation intracavity is filled there is soundproof cotton, and the casement includes fan frame and glass board, and the glass board is installed in fan frame, has seted up a plurality of second sound insulation chambeies in the fan frame, and second sound insulation intracavity is filled there is soundproof cotton. The window in this application has better syllable-dividing effect.

Description

Sound-insulation bridge-cut-off aluminum alloy casement window

Technical Field

The application relates to the field of bridge cut-off aluminum windows, in particular to a sound insulation bridge cut-off aluminum alloy casement window.

Background

A window, architecturally, refers to an opening made in a wall or roof to allow light or air to enter a room. In a noisy city or a place next to a road, a window in the related art usually adopts a double-layer glass form for improving heat insulation performance, so that the window has good heat insulation performance and certain sound insulation effect.

With respect to the window of the related art described above, the inventors have found that the window has a certain sound insulation effect, but the sound insulation effect is less desirable in some environments where noise is loud.

SUMMERY OF THE UTILITY MODEL

In order to improve the unsatisfactory problem of window sound insulation effect, the application provides a bridge cut-off aluminum alloy flat-open window gives sound insulation.

The application provides a pair of bridge cut-off aluminum alloy flat-open window gives sound insulation adopts following technical scheme:

the utility model provides a bridge cut-off aluminum alloy flat-open window gives sound insulation, includes window frame and casement, and the casement is installed in the window frame, has seted up a plurality of first sound-proof chambeies in the window frame, and first sound-proof intracavity packing has soundproof cotton, and the casement includes fan frame and glass board, and the glass board is installed in fan frame, has seted up a plurality of second sound-proof chambeies in the fan frame, and second sound-proof intracavity packing has soundproof cotton.

Through adopting above-mentioned technical scheme, set up first sound insulation chamber in the window frame, seted up second sound insulation chamber in the fan frame, first sound insulation chamber and second sound insulation intracavity all fill has soundproof cotton for the window has better syllable-dividing effect.

Optionally, the glass plates are arranged into three layers, and the three layers of glass plates are arranged in parallel at intervals on the sash frame.

Through adopting above-mentioned technical scheme for the casement has better syllable-dividing effect.

Optionally, a first heat preservation cavity is formed in the window frame, heat preservation cotton is filled in the first heat preservation cavity, the number of the first sound insulation cavities is two, the two first sound insulation cavities are located on two sides of the first heat preservation cavity respectively, a second heat preservation cavity is formed in the fan frame, heat preservation cotton is filled in the second heat preservation cavity, the number of the second sound insulation cavities is two, and the two second sound insulation cavities are arranged on two sides of the second heat preservation cavity respectively.

Through adopting above-mentioned technical scheme, increased the thermal insulation performance of window, still make the syllable-dividing effect of window better simultaneously.

Optionally, a plurality of sound insulation plates are arranged in the first sound insulation cavity and the second sound insulation cavity, the first sound insulation cavity is divided into a plurality of first sub-compartments by the plurality of sound insulation plates in the first sound insulation cavity, the plurality of first sub-compartments are sequentially arranged along the horizontal direction, and sound insulation cotton is filled in the plurality of first sub-compartments in the first sound insulation cavity; the multiple sound insulation boards in the second sound insulation cavity divide the second sound insulation cavity into multiple second separation chambers, the multiple second separation chambers are sequentially arranged along the horizontal direction, and sound insulation cotton is filled in the multiple second separation chambers in the second sound insulation cavity.

Through adopting above-mentioned technical scheme, the syllable-dividing effect in first sound-proof chamber and second sound-proof chamber has been strengthened.

Optionally, the cross section of the sound insulation board is wavy.

Through adopting above-mentioned technical scheme, the acoustic celotex board sets up to the wave for the sound wave can be absorbed by soundproof cotton after being abundant reflection.

Optionally, a sealing member for increasing the sealing property between the sash frame and the window frame is installed between the sash frame and the window frame.

Through adopting above-mentioned technical scheme, the leakproofness between fan frame and the window frame has been strengthened to the sealing member.

Optionally, the sealing member includes a first connecting piece mounted on the sash frame and a first sealing strip mounted on the window frame, and the first connecting piece is provided with a first arc-shaped surface, and the corresponding first sealing strip is provided with a second arc-shaped surface used in cooperation with the first arc-shaped surface.

Through adopting above-mentioned technical scheme, when the casement is in the closed condition, first arcwall face supports tight second arcwall face, owing to support tight portion and adopt elastic material to make and form, so butt portion extrusion support tight portion makes and supports tight portion and produce the deformation to it is sealed to make to form between casement and the window frame.

Optionally, the window frame includes a first splicing portion and a second splicing portion, and the first splicing portion and the second splicing portion are detachably connected together through a plurality of connecting plates.

By adopting the technical scheme, the production and transportation of the window frame by workers are facilitated, and meanwhile, the filling of each filling material in the window frame is also facilitated.

Optionally, the fan frame includes first concatenation portion and second concatenation portion, and first concatenation portion and second concatenation portion can dismantle through coupling assembling and link together.

By adopting the technical scheme, the glass plate can be conveniently installed on the fan frame by workers, and meanwhile, the filling of each filling material in the fan frame is also facilitated.

Optionally, a parting strip drying agent is arranged between the two adjacent glass plates.

Through adopting above-mentioned technical scheme, the drier can absorb the moisture between two adjacent glass boards to avoid two adjacent glass boards as far as one side that faces each other to produce the fog.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the window frame is internally provided with the first sound insulation cavity, the fan frame is internally provided with the second sound insulation cavity, and sound insulation cotton is filled in the first sound insulation cavity and the second sound insulation cavity, so that the sound insulation effect of the window is improved;

2. the sound insulation effect of the window is further improved by arranging the plurality of wavy sound insulation plates in the first sound insulation cavity and the second sound insulation cavity;

3. through all setting up window frame and fan window into mosaic structure, make things convenient for the equipment of staff to the window more.

Drawings

Figure 1 is a schematic cross-sectional view of a window in an embodiment of the present application.

Fig. 2 is a sectional view showing a connection structure between the sash frame and the window frame in the embodiment of the present application.

Description of reference numerals: 1. a window frame; 11. a first heat preservation cavity; 12. a first sound-insulating chamber; 121. a first compartment; 13. a first splice; 131. a first clamping groove; 132. an additional groove; 1321. a fourth seal strip; 14. a second splice; 141. a second clamping groove; 15. clamping grooves; 2. a window sash; 21. a fan frame; 211. a second heat preservation cavity; 212. a second sound-insulating chamber; 2121. a second compartment; 213. a first assembling portion; 2131. a first groove; 2132. a second groove; 2133. fixing grooves; 2134. a third seal strip; 214. a second assembled part; 2141. a third groove; 2142. a fourth groove; 2143. connecting grooves; 2145. a second seal strip; 22. a glass plate; 23. a groove; 3. a connecting plate; 31. a connecting portion; 32. a clamping part; 33. a first cavity; 4. a first connecting member; 41. an abutting portion; 411. a first arc-shaped surface; 42. an insertion part; 421. a second cavity; 5. a second connecting member; 51. an installation part; 511. a third cavity; 52. a plug-in part; 6. a sound insulating board; 7. parting strip drying agent; 8. a first seal strip; 81. an insertion part; 82. a tightening part; 821. a second arc-shaped surface.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses bridge cut-off aluminum alloy flat-open window gives sound insulation. Referring to fig. 1, the casement window includes a window frame 1 and a window sash 2, the window frame 1 is fixedly connected to a wall, and the window sash 2 is hinged to the window frame 1. A first heat-preservation cavity 11 and two first sound-insulation cavities 12 are arranged in the window frame 1, the two first sound-insulation cavities 12 are respectively positioned at two sides of the first heat-preservation cavity 11, heat-preservation cotton is filled in the first heat-preservation cavity 11, and sound-insulation cotton is filled in both the two first sound-insulation cavities 12;

the window sash 2 comprises a sash frame 21 and glass plates 22, the glass plates 22 are arranged into three layers, grooves 23 for mounting the glass plates 22 are formed in the inner circumferential surface of the sash frame 21, elastic fillers are filled in the grooves 23, and the three layers of glass plates 22 are embedded in the grooves 23 in the inner circumferential surface of the sash frame 21 in parallel; a second heat preservation cavity 211 and two second sound insulation cavities 212 are arranged in the fan frame 21, the two second sound insulation cavities 212 are respectively located at two sides of the second heat preservation cavity 211, heat preservation cotton is filled in the second heat preservation cavity 211, and sound insulation cotton is filled in the two second sound insulation cavities 212.

Referring to fig. 1 and 2, the window frame 1 includes a first splicing portion 13 and a second splicing portion 14, the first splicing portion 13 is located on the indoor side of the window frame 1, and the second splicing portion 14 is located on the outdoor side of the window frame 1; two dovetail-shaped first clamping grooves 131 are formed in one surface, facing the second splicing portion 14, of the first splicing portion 13, two dovetail-shaped second clamping grooves 141 are formed in one surface, facing the first splicing portion 13, of the second splicing portion 14, the two first clamping grooves 131 and the two second clamping grooves 141 are in one-to-one correspondence, a connecting plate 3 used for connecting the first splicing portion 13 and the second splicing portion 14 together is arranged between the first clamping grooves 131 and the second clamping grooves 141, and a first heat-preservation cavity 11 is formed between the two connecting plates 3;

the connecting plate 3 includes connecting portion 31 and two joint portions 32, and two joint portions 32 are located the both ends position department of connecting portion 31 respectively, and the cross section of joint portion 32 sets up to the dovetail, and two joint portions 32 on the connecting plate 3 joint respectively in first joint groove 131 and second joint groove 141.

Furthermore, two first cavities 33 are formed in the connecting portion 31 of the connecting plate 3 in parallel. The first cavity 33 is provided to improve the thermal insulation and sound insulation effects of the window frame 1.

The fan frame 21 comprises a first assembling portion 213 and a second assembling portion 214, the first assembling portion 213 is positioned on one indoor side of the fan frame 21, the second assembling portion 214 is positioned on one outdoor side of the fan frame 21, and one surface of the first assembling portion 213 facing the second assembling portion 214 is provided with a first dovetail groove 2131 and a second dovetail groove 2132; one surface of the second splicing part 14 facing the first splicing part 213 is provided with a third dovetail groove 2141 and a fourth dovetail groove 2142; the first groove 2131 corresponds to the third groove 2141, the second groove 2132 corresponds to the fourth groove 2142, the first groove 2131 and the third groove 2141 are located on one side far away from the window frame 1, and the second groove 2132 and the fourth groove 2142 are located on one side close to the window frame 1.

A first connecting member 4 is arranged between the second groove 2132 and the fourth groove 2142, a second connecting member 5 is arranged between the first groove 2132 and the third groove 2141, the first connecting member 4 and the second connecting member 5 connect the first assembling portion 213 and the second assembling portion 214 together, and a second heat preservation cavity 211 is formed between the first connecting member 4 and the second connecting member 5.

The first connecting member 4 includes an abutting portion 41 and two dovetail insertion portions 81, the two insertion portions 81 are respectively inserted into the first groove 2131 and the third groove 2141, and a second cavity 421 is formed in the insertion portion 81.

The second connecting piece 5 comprises a mounting portion 51 and two dovetail-shaped inserting portions 52, the two inserting portions 52 are respectively inserted into the second groove 2132 and the fourth groove 2142, two third cavities 511 which are arranged in parallel are formed in the mounting portion 51, and the third cavities 511 are formed to improve the sealing, heat preservation and sound insulation effects of the window sash 2.

Clamping grooves 15 are formed in the faces, facing each other, of the first splicing portion 13 and the second splicing portion 14, a first sealing strip 8 is embedded between the two clamping grooves 15, and the first sealing strip 8 comprises an insertion portion 81 and a abutting portion 82 matched with the abutting portion 41 on the second connecting piece 5 for use. The abutting portion 82 is made of a soft material, the lower surface of the abutting portion 41 is provided with a first arc-shaped surface 411, the upper surface of the abutting portion 82 is provided with a second arc-shaped surface 821, and two fourth cavities are formed in the abutting portion 82. When the window sash 2 is in the closed state, the first arc-shaped surface 411 abuts against the second arc-shaped surface 821, and since the abutting portion 82 is made of an elastic material, the abutting portion 41 extrudes the abutting portion 82 to deform the abutting portion 82, so that a seal is formed between the window sash 2 and the window frame 1.

Connecting groove 2133 has been seted up on first concatenation portion 213, has connect in the connecting groove 2133 the joint have a second sealing strip 2134, and when the window was in closed state, second sealing strip 2134 and window frame 1's lateral wall butt to make the leakproofness between casement 2 and the window frame 1 better.

A fixing groove 2143 is formed in the second splicing portion 214, a third sealing strip 2135 is clamped in the fixing groove 2143, an additional groove 132 is formed in the corresponding first splicing portion 13, and a fourth sealing strip 1321 matched with the third sealing strip 2135 is clamped in the additional groove 132. When the window is closed, the third sealing strip 2135 abuts the fourth sealing strip 1321 forming a seal between the first splice 13 and the third splice.

Integrative baffle 6 that is provided with the vertical setting of polylith in first sound insulation chamber 12, baffle 6 are the wave, and polylith baffle 6 is parallel to each other, and polylith baffle 6 separates first sound insulation chamber 12 for a plurality of first compartments 121. The soundproof cotton in the first soundproof cavity 12 is provided in a plurality of pieces, and the plurality of pieces of soundproof cotton are sequentially filled in the plurality of first compartments 121.

The second acoustic celotex board 6 that the polylith set up vertically is provided with an organic whole in the second sound insulation chamber 212, and second acoustic celotex board 6 is the wave, and polylith second acoustic celotex board 6 is parallel to each other, and polylith second acoustic celotex board 6 separates second sound insulation chamber 212 for a plurality of second compartment 2121, and the soundproof cotton in the second sound insulation chamber 212 sets up to the polylith, and polylith soundproof cotton fills in a plurality of second compartments 2121 in proper order.

The soundproof panel 6 can enhance the soundproof performance of the window, and at the same time, the soundproof panel 6 is provided in a wave shape so that sound waves can be absorbed by soundproof cotton after being sufficiently reflected.

And a parting bead drying agent 7 is filled between two adjacent glass plates 22. The parting strip drying agent 7 is used to prevent as much as possible the formation of mist on the mutually facing sides of two adjacent glass panes 22.

The implementation principle of this application embodiment a bridge cut-off aluminum alloy flat-open window gives sound insulation does: through set up two first sound insulation chambeies 12 and first heat preservation chamber 11 in window frame 1, set up two second sound insulation chambeies 212 and second heat preservation chamber 211 in fan frame 21, all be provided with polylith acoustic celotex board 6 and soundproof cotton in first sound insulation chamber 12 and the second sound insulation intracavity 212, the syllable-dividing effect of window has been strengthened greatly, set up the soundproof cotton in first heat insulation chamber 11 and the second heat insulation intracavity 211 simultaneously, the heat preservation effect of window has been strengthened greatly, simultaneously because heat insulation chamber and sound insulation chamber are detached fixed, make the heat preservation function and the sound insulation function mutual independence of window, thereby the syllable-dividing and the heat preservation effect of window have been strengthened.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a bridge cut-off aluminum alloy flat-open window gives sound insulation which characterized in that: including window frame (1) and casement (2), install in window frame (1) casement (2), seted up a plurality of first sound insulation chambeies (12) in window frame (1), first sound insulation intracavity (12) intussuseption is filled with soundproof cotton, and casement (2) are including fan frame (21) and glass board (22), and glass board (22) are installed in fan frame (21), have set up a plurality of second sound insulation chambeies (212) in fan frame (21), and second sound insulation intracavity (212) intussuseption is filled with soundproof cotton.

2. The sound-insulation bridge-cut-off aluminum alloy casement window according to claim 1, characterized in that: the glass plates (22) are arranged into three layers, and the three layers of glass plates (22) are mutually parallel and are arranged on the fan frame (21).

3. The sound-insulation bridge-cut-off aluminum alloy casement window according to claim 1, characterized in that: the window frame is characterized in that a first heat-insulation cavity (11) is formed in the window frame (1), heat-insulation cotton is filled in the first heat-insulation cavity (11), the first heat-insulation cavity (12) is arranged to be two, the two first heat-insulation cavities (12) are respectively located on two sides of the first heat-insulation cavity (11), a second heat-insulation cavity (211) is formed in the fan frame (21), heat-insulation cotton is filled in the second heat-insulation cavity (211), the second heat-insulation cavity (212) is arranged to be two, and the two second heat-insulation cavities (212) are respectively arranged on two sides of the second heat-insulation cavity (211).

4. The sound-insulation bridge-cut-off aluminum alloy casement window according to claim 1, characterized in that: a plurality of sound insulation boards (6) are arranged in the first sound insulation cavity (12) and the second sound insulation cavity (212), the first sound insulation cavity (12) is divided into a plurality of first partition chambers (121) by the sound insulation boards (6) in the first sound insulation cavity (12), the first partition chambers (121) are sequentially distributed along the horizontal direction, and sound insulation cotton is filled in the first partition chambers (121) in the first sound insulation cavity (12); the second sound insulation cavity (212) is divided into a plurality of second separation chambers (2121) by the plurality of sound insulation plates (6) in the second sound insulation cavity (212), the plurality of second separation chambers (2121) are sequentially distributed along the horizontal direction, and sound insulation cotton is filled in the plurality of second separation chambers (2121) in the second sound insulation cavity (212).

5. The sound-insulation bridge-cut-off aluminum alloy casement window according to claim 4, characterized in that: the cross section of the sound insulation board (6) is wavy.

6. The sound-insulation bridge-cut-off aluminum alloy casement window according to claim 1, characterized in that: and a sealing element for increasing the sealing property between the fan frame (21) and the window frame (1) is arranged between the fan frame (21) and the window frame (1).

7. The sound-insulation bridge-cut-off aluminum alloy casement window according to claim 6, wherein: the sealing member is including installing in first connecting piece (4) of fan frame (21) to and install in first sealing strip (8) of window frame (1), and is provided with first arcwall face (411) on first connecting piece (4), be provided with on first sealing strip (8) that correspond with first arcwall face (411) cooperation use second arcwall face (821).

8. The sound-insulation bridge-cut-off aluminum alloy casement window according to claim 1, characterized in that: the window frame (1) comprises a first splicing part (13) and a second splicing part (14), and the first splicing part (13) and the second splicing part (14) are detachably connected together through a plurality of connecting plates (3).

9. The sound-insulation bridge-cut-off aluminum alloy casement window according to claim 1, characterized in that: the fan frame (21) comprises a first assembling portion (213) and a second assembling portion (214), and the first assembling portion (213) and the second assembling portion (214) are detachably connected together through a connecting assembly.

10. The sound-insulation bridge-cut-off aluminum alloy casement window according to claim 1, characterized in that: and a parting bead drying agent (7) is arranged between two adjacent glass plates (22).

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