CN218701874U - Sound-absorbing stone honeycomb plate - Google Patents

Abstract

The utility model discloses a sound-absorbing stone honeycomb plate, which comprises a stone surface layer, an intermediate layer aluminum plate, a honeycomb core layer, an outer layer aluminum plate and sound-absorbing paper from outside to inside in sequence, wherein the layers are bonded and fixed; the stone surface layer is provided with first sound absorption holes which penetrate through the stone surface layer up and down, the middle aluminum plate is provided with second sound absorption holes, and the outer aluminum plate is provided with third sound absorption holes which are arranged in an array manner; the second sound absorbing hole and the third sound absorbing hole are through holes. The utility model discloses an inhale sound stone material honeycomb panel adopts stone material face + aluminum plate + honeycomb panel + aluminum plate + to inhale the structure of sound paper, contains the three-layer and sets up the sheet layer and the honeycomb core of inhaling the sound hole and inhale the sound paper, guarantees the sound absorbing effect. The utility model discloses a honeycomb panel has natural stone material decorative effect concurrently and inhales the sound effect.

Description

Sound-absorbing stone honeycomb plate

Technical Field

The utility model relates to a honeycomb panel, concretely relates to inhale sound stone material honeycomb panel.

Background

Some existing stone cellular boards only have a sound insulation effect and do not have a sound absorption effect; the honeycomb plate is not suitable for the decoration part which needs sound absorption function and also needs the decoration effect of the natural stone honeycomb plate.

Regarding sound-absorbing honeycomb panels, chinese patent document CN207878836 (application number 201721644148) discloses a noise-reducing and sound-insulating stone honeycomb aluminum panel, which comprises two marble panels parallel to each other, and an interlayer disposed between the two marble panels; the sandwich layer comprises an outer frame, a central aluminum plate arranged in the outer frame, and honeycomb plates which are arranged in the outer frame and fixed on two side faces of the central aluminum plate respectively, wherein the outer frame comprises an upper frame strip, a first side frame strip which is vertically arranged on one side of the upper frame strip and fixed with the central aluminum plate, a lower frame strip which is parallel to the upper frame strip, and a second side frame strip which is vertically arranged on the other side of the upper frame strip and parallel to the first side frame strip; this stone material honeycomb aluminum plate fixes central aluminum plate and honeycomb panel through the frame, can make interbedded structure more firm to improve interbedded noise reduction sound insulation effect through the honeycomb panel, in addition, can make two adjacent stone material honeycomb aluminum plate gomphosis connect through the frame, can be easy to assemble, have noise reduction sound insulation, structural strength height and simple to operate's advantage.

Chinese patent document CN202007478U (application No. 201120045756) discloses a sound-absorbing honeycomb ceiling which is composed of a bottom plate, a honeycomb core, a punching panel and sound-absorbing cloth, wherein the honeycomb core is in a square ceiling shape, the sound-absorbing cloth is wrapped outside the honeycomb core, the bottom plate is wrapped outside the sound-absorbing cloth, the punching panel is in a groove-shaped structure, the punching panel covers the lower surface and the side surface of the bottom plate, and through holes are formed in the lower surface of the groove-shaped punching panel. The sound-absorbing honeycomb ceiling is a ceiling with sound-absorbing cloth added outside a honeycomb core, and has the structure of a medium-hole aluminum plate, sound-absorbing cloth (non-woven fabric), a honeycomb core and an aluminum plate, wherein each layer of the material is fixed by epoxy glue, and can be formed after being cured for 8 hours, and when the sound-absorbing honeycomb ceiling is used, the sound-absorbing honeycomb ceiling is fixed on a ceiling by a keel like a common ceiling.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a sound stone material honeycomb panel is inhaled with natural stone material decorative effect is provided.

The technical scheme for realizing the purpose of the utility model is a sound-absorbing stone honeycomb plate which comprises a stone surface layer, an intermediate layer aluminum plate, a honeycomb core layer, an outer layer aluminum plate and sound-absorbing paper from outside to inside in sequence, wherein the layers are bonded and fixed; the stone surface layer is provided with first sound absorption holes which penetrate through the stone surface layer up and down, the middle aluminum plate is provided with second sound absorption holes, and the outer aluminum plate is provided with third sound absorption holes which are arranged in an array manner; the second sound absorbing hole and the third sound absorbing hole are through holes. The utility model discloses an inhale sound stone material honeycomb panel adopts stone material face + aluminum plate + honeycomb panel + aluminum plate + to inhale the structure of sound paper, contains the three-layer and sets up the sheet layer and the honeycomb core of inhaling the sound hole and inhale the sound paper, guarantees the sound absorbing effect.

Furthermore, grooves which are arranged in parallel at equal intervals are formed in the outward side of the stone surface layer, and the first sound absorption holes are located in the grooves. Optionally, all the first sound absorption hole arrays are arranged on the stone surface layer.

Furthermore, the middle layer aluminum plate is also provided with a glue hole, and the glue hole is arranged on the middle layer aluminum plate according to the sequence of the row of second sound absorbing holes and the row of glue holes.

After setting up the gluey hole, the part that is located the tie coat between stone surface course and the intermediate level aluminum plate glues, passes from intermediate level aluminum plate's gluey hole, forms the glue nail structure in one side that intermediate level aluminum plate is close to the honeycomb sandwich layer, strengthens the joint strength between stone surface course and the intermediate level aluminum plate.

Optionally, when the stone surface layer is bonded and fixed with the middle-layer aluminum plate, the first sound absorption holes of the stone surface layer and the second sound absorption holes of the middle-layer aluminum plate are arranged in a one-to-one coaxial corresponding mode.

As preferred, the third sound absorbing hole on the outer aluminum plate is not arranged coaxially with the first sound absorbing hole on the stone surface layer, and is staggered with the first sound absorbing hole on the stone surface layer, so that a sound channel is changed, and the sound absorbing effect is enhanced.

The aperture of the third sound absorbing hole on the outer aluminum plate is different from the aperture of the first sound absorbing hole on the stone surface layer and is also different from the aperture of the second sound absorbing hole on the middle aluminum plate.

The utility model discloses positive effect has: (1) The utility model discloses a honeycomb panel has natural stone material decorative effect concurrently and inhales the sound effect.

(2) The utility model discloses a honeycomb panel sets up on natural stone material surface course and inhales the sound hole, and intermediate level aluminum plate and outer aluminum plate also set up and inhale the sound hole to sound paper is inhaled in outer aluminum plate's surface setting, realizes and guarantees sound absorbing effect.

(3) Further, the aperture of the sound absorbing hole in the aluminum plate is different from the aperture of the sound absorbing hole in the natural stone surface layer, and the sound absorbing holes in the aluminum plate and the natural stone surface layer are staggered with each other, so that the sound channel is changed, and the sound absorbing effect is enhanced.

Drawings

Fig. 1 is a schematic structural diagram of the honeycomb panel of the present invention.

Fig. 2 is a schematic view of arrangement of sound-absorbing holes in a natural stone surface layer.

FIG. 3 is a schematic view of the arrangement of sound-absorbing holes in the outer aluminum plate.

The reference numbers in the above figures are as follows: the structure comprises a stone surface layer 1, grooves 1-1, first sound absorbing holes 1-2, an intermediate aluminum plate 2, second sound absorbing holes 2-1, glue holes 2-2, a honeycomb core layer 3, an outer aluminum plate 4, third sound absorbing holes 4-1, sound absorbing paper 5 and glue nails 6.

Detailed Description

The following description is of the several possible embodiments of the invention, and is intended to provide a basic understanding of the invention and is not intended to identify key or critical elements of the invention or to delineate the scope of the invention. It is easily understood that, according to the technical solution of the present invention, other implementations that can be substituted for each other can be proposed by those skilled in the art without changing the spirit of the present invention. Therefore, the following detailed description and the accompanying drawings are merely illustrative of the technical solutions of the present invention, and should not be considered as limiting or restricting the technical solutions of the present invention in their entirety or in any other way.

(example 1)

See fig. 1, the sound-absorbing stone honeycomb panel of this embodiment includes stone surface course 1, intermediate level aluminum plate 2, honeycomb sandwich layer 3, outer aluminum plate 4 and inhales sound paper 5 from the extroversion in proper order, and stone surface course 1 is fixed through the adhesive bonding with intermediate level aluminum plate 2, and intermediate level aluminum plate 2 is fixed through the adhesive bonding with honeycomb sandwich layer 3, and honeycomb sandwich layer 3 is fixed through the adhesive bonding with outer aluminum plate 4, inhales sound paper 5 and bonds on outer aluminum plate 4's surface.

The stone surface layer 1 has the appearance of natural stone, and the surface of the stone surface layer 1 is the surface of the sound-absorbing stone honeycomb plate.

Referring to fig. 1 and 2, grooves 1-1 are formed in the outward side of the stone surface layer 1, and all the grooves 1-1 are arranged in parallel at equal intervals. The stone surface layer 1 is provided with first sound absorption holes 1-2 which are arranged in an array and penetrate through the stone surface layer from top to bottom, and the first sound absorption holes 1-2 are all located in the grooves 1-1.

The middle aluminum plate 2 is provided with a second sound absorbing hole 2-1 and a glue hole 2-2, and the second sound absorbing hole 2-1 and the glue hole 2-2 are through holes. The second sound absorbing holes 2-1 and the glue holes 2-2 are arranged in sequence. In this embodiment, the aperture of the second sound absorbing hole 2-1 is larger than the aperture of the glue hole 2-2.

In the embodiment, the honeycomb core layer 3 adopts an aluminum honeycomb core; but are not limited to, aluminum honeycomb cores.

Referring to fig. 3, the outer aluminum plate 4 is provided with third sound-absorbing holes 4-1 arranged in an array, and the adjacent third sound-absorbing holes 4-1 are arranged at equal intervals in the upper, lower, left and right directions. The aperture of the third sound absorption hole 4-1 is different from the aperture of the first sound absorption hole 1-2 of the stone surface layer 1 and is also different from the aperture of the second sound absorption hole 2-1 of the middle aluminum plate 2. The third sound absorbing hole 4-1 is a through hole.

Intermediate level aluminum plate 2 is located between stone surface course 1 and honeycomb sandwich layer 3, and the part that is located the tie coat between stone surface course 1 and intermediate level aluminum plate 2 glues, passes from intermediate level aluminum plate 2's glued hole 2-2, forms glue nail 6 structure in one side that intermediate level aluminum plate 2 is close to honeycomb sandwich layer 3, reinforcing stone surface course 1 and intermediate level aluminum plate 2's joint strength.

When the stone surface layer 1 and the middle aluminum plate 2 are bonded and fixed, the first sound absorption holes 1-2 of the stone surface layer 1 and the second sound absorption holes 2-1 of the middle aluminum plate 2 are coaxially and correspondingly arranged one by one.

The third sound absorbing hole 4-1 on the outer aluminum plate 4 is not arranged coaxially with the first sound absorbing hole 1-2 of the stone surface layer 1, and after the sound absorbing holes are staggered, a sound channel is changed, and the sound absorbing effect is enhanced.

The sound-absorbing stone honeycomb plate of the utility model has the structure of stone surface, aluminum plate, honeycomb plate, aluminum plate and sound-absorbing paper, and the layers are fixed by adhesive; wherein aluminum plate for setting up the aluminum plate that punches a hole that attracts the hole, the stone material face also sets up inhales the sound hole, and sound paper is inhaled to the back subsides to have natural stone material decorative effect concurrently and inhale the sound effect.

Claims (7)

1. The utility model provides a inhale sound stone material honeycomb panel which characterized in that: the honeycomb sound-absorbing plate sequentially comprises a stone surface layer (1), an intermediate layer aluminum plate (2), a honeycomb core layer (3), an outer layer aluminum plate (4) and sound-absorbing paper (5) from outside to inside, and the layers are bonded and fixed; a stone surface layer (1) is provided with first sound absorption holes (1-2) which penetrate through the stone surface layer up and down, a middle aluminum plate (2) is provided with second sound absorption holes (2-1), and an outer aluminum plate (4) is provided with third sound absorption holes (4-1) which are arranged in an array manner; the second sound absorption hole (2-1) and the third sound absorption hole (4-1) are through holes.

2. The sound-absorbing stone cellular board of claim 1, wherein: the outward side of the stone surface layer (1) is provided with grooves (1-1) which are arranged in parallel at equal intervals, and the first sound absorption holes (1-2) are positioned in the grooves (1-1).

3. The sound-absorbing stone cellular board of claim 1, wherein: the middle-layer aluminum plate (2) is also provided with glue holes (2-2), and the glue holes (2-1) and the glue holes (2-2) are arranged on the middle-layer aluminum plate (2) in sequence.

4. The sound-absorbing stone cellular board of claim 3, wherein: the middle layer aluminum plate (2) is located between the stone surface layer (1) and the honeycomb core layer (3), the part of the bonding layer located between the stone surface layer (1) and the middle layer aluminum plate (2) is glued, the glue holes (2-2) of the middle layer aluminum plate (2) penetrate through the glue holes, and a glue nail (6) structure is formed on one side, close to the honeycomb core layer (3), of the middle layer aluminum plate (2).

5. The sound-absorbing stone cellular board of claim 1, wherein: when the stone surface layer (1) is bonded and fixed with the middle aluminum plate (2), the first sound absorption holes (1-2) of the stone surface layer (1) and the second sound absorption holes (2-1) of the middle aluminum plate (2) are arranged in a one-to-one coaxial line.

6. The sound-absorbing stone cellular board of claim 5, wherein: the third sound absorption holes (4-1) on the outer aluminum plate (4) are not coaxially arranged with the first sound absorption holes (1-2) on the stone surface layer (1) respectively.

7. The sound-absorbing stone cellular board according to any one of claims 1 to 6, wherein: the aperture of the third sound absorption hole (4-1) on the outer aluminum plate (4) is different from the aperture of the first sound absorption hole (1-2) on the stone surface layer (1) and is also different from the aperture of the second sound absorption hole (2-1) on the middle aluminum plate (2).

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