KR20090114089A - A Thin Structural Air-Panel having Superior Sound Absorption Characteristic - Google Patents

Abstract

PURPOSE: An air panel for construction in which the excellent thermal insulation effect and soundproof effect are excellent is provided to construct the air panel at he thin thickness and to improve the soundproof and thermal insulation effects. CONSTITUTION: An air panel for construction in which the excellent thermal insulation effect and soundproof effect are excellent is composed of a space formation body(10), a cut-off sheet(20), and a soundproof sheet(30). The space formation body is composed of a column type projection(11) and a cut-off wall(12). The column type projection is formed upwardly. The cut-off wall is installed between the column type projections to form the space. The cut-off sheet is integrally contacted to the upper part of the projection of the space formation body. The cut-off sheet blocks the space between the projections. The cut-off sheet is made of soft synthetic resins. The soundproof sheet is adhered on the cut-off sheet to absorb the air sound.

Description

A Thin Structural Air-Panel having Superior Sound Absorption Characteristic

The present invention relates to a building panel for sound insulation and insulation, and more particularly to a building air panel to be soundproof and heat insulation through the air-filled space.

Conventional panels used for sound insulation and insulation in the field of construction were using products made of styrofoam or air tubes, and these products are still widely used.

By the way, chemicals such as styrofoam are easy to burn, there is a problem that not only is a large amount of waste induced, but also difficult to process the generated waste.

Of course, there were products using flame retardant materials, but these products were very expensive, causing problems of large increase in construction cost.

The product using the air tube is in the form of one air bag, which is limited to drilling or cutting, so there was considerable difficulty in installation work.

In order to solve this problem, a plurality of air bags isolated by the inventor of the present application, such as Korean Patent Application No. 10-2001-0001069 (Publication No. 2002-0059910) can be generated to obtain insulation and sound insulation effects. Architectural air panels were created.

In the conventional air panel as described above, the upper case and the lower case are coupled to each other to form an inner space, and the blocking member is positioned in the inner space, but the blocking member is formed by combining the upper object and the lower object in which the air bag is formed. Was to touch each other.

However, such a structure is able to obtain a robust and high insulation effect, but the sound insulation effect has a very low problem and a thick problem.

That is, the soundproofing effect was very low due to being absorbed and reflected when the air propagating sound hit the upper case, and the thickness was thick.

The present invention is to solve the above problems, and more particularly, to provide a building air panel excellent in thermal insulation effect, thin thickness, excellent insulation and sound insulation effect.

Building air panel excellent in the thermal insulation and soundproofing effect of the present invention is formed with a plurality of columnar projections toward the top, and a blocking wall is provided between the columnar projections and projections space is formed between the projections and projections Wow; A blocking sheet made of a flexible synthetic resin bonded to an upper end of the protrusion formed on the space forming body to block a space between the protrusion and the protrusion and integrated with the space forming body; Sound insulation sheet to increase the sound insulation effect by absorbing the air propagation sound hit on the blocking sheet; Characterized in that comprises a.

Here, the height d2 of the blocking wall is smaller than or equal to the height d1 of the protrusion.

In addition, the projection of the space-forming body is a columnar shape of the hollow inside, characterized in that the lower portion of the space-forming body is attached to the soundproof sheet to increase the sound insulation effect by absorbing air propagation sound.

In addition, the barrier wall of the space-forming body is thinly formed so as to have excellent absorption efficiency of vibration due to the airborne sound impingement, the cross-section "T" shaped so that the upper end has a large area to facilitate the adhesion with the barrier sheet Characterized in having a.

In addition, the blocking wall of the space-forming body is formed mostly thin so as to have excellent absorption efficiency of vibration caused by the airborne sound impingement. It is located while forming a zone, it is characterized in that the vibration absorption efficiency of the thin barrier wall is excellent and the transmission of the vibration to the side is blocked by the barrier wall having a wide top.

Here, the soundproof sheet is characterized in that the nonwoven fabric.

In addition, the space-forming body and the soundproof sheet is characterized in that it is made of any one selected from glass flame retardant, mineral flame retardant, metal flame retardant, carbonaceous flame retardant, and organic flame retardant.

Meanwhile, the space forming body and the blocking sheet form one cell, and the cell has a structure in which a plurality of cells are stacked.

In the building air panel of the present invention, a flexible sheet of synthetic resin is adhered to the upper end of the protrusion of the space-forming body in which a plurality of columnar protrusions protrude, and the space between the protrusion and the protrusion is blocked, thereby obtaining an insulation effect. It is flexible, so that the first absorbed and the remaining air propagation sound is absorbed, and the sound absorbing sheet absorbing air propagation sound is attached on the blocking sheet, so that the sound absorbing effect of the air propagation can be obtained as thin and excellent sound insulation effect. There is a characteristic.

Hereinafter, the technical spirit of the present invention will be described in detail with reference to the accompanying drawings.

However, the accompanying drawings are only examples to illustrate the technical idea of the present invention in more detail, and thus the technical idea of the present invention is not limited to the accompanying drawings.

The present invention relates to a building air panel having an insulation and sound insulation effect.

Therefore, the present invention also obtains an insulating effect through a plurality of spaces filled with air and isolated as in the prior art.

By the way, the present invention has a purpose that the thickness is thin, unlike the conventional building air panel, and excellent sound insulation effect as well as sound insulation effect.

The reason why the conventional building air panel was thick was because it formed a space through the upper case and the lower case and inserted a blocking member having an air bag in the space.

In addition, the sound insulation effect did not meet expectations due to the upper case and the lower case.

However, the upper case and the lower case not only generate the advantages of robustness, but also protect and easily integrate various components.

Therefore, the solution to the problems caused by the upper case and the lower case should be able to take advantage of the advantages of the upper case and the lower case.

The inventor of the present application devised a structure as shown in FIG. 1 after a long research and effort.

In the building air panel of FIG. 1, a plurality of columnar protrusions 11 are formed upward, and a blocking wall 12 is provided between the columnar protrusions 11 and the protrusions 11 so that the protrusions 11 And a space forming body 10 having a space formed between the protrusion 11 and the protrusion 11 is provided.

In addition, the sheet is bonded to the upper end of the projection 11 formed in the space forming body 10 to block the space between the projection 11 and the projection 11 and the blocking sheet of flexible synthetic resin material which is integrated with the space forming body 10 ( 20) is provided.

Moreover, the soundproof sheet 30 which improves a sound insulation effect by absorbing the air propagation sound which affixes on the blocking sheet 20 and collides is provided.

In FIG. 1, the blocking wall 12 formed in the space forming body 10 connects the protrusions 11 and the protrusions 11 to prevent deformation of the space forming body 10, and thus firmness of the space forming body 10. It acts to secure the ship.

The height d2 of the blocking wall 12 is preferably formed to be equal to or smaller than the height d1 of the protrusion 11.

In addition, the blocking wall 12 is of a wall shape that allows the space between the protrusion 11 and the protrusion 11 to be isolated, so that when a breakage occurs, heat is transmitted, or air transfer sound is transmitted to a specific part of the space, To avoid impacting the space.

Since the projection 11 of the space-forming body 10 has a columnar shape, it is easy to block the space located between the pillar and the pillar with a sheet.

That is, the blocking sheet 20 is attached to the top surface of the protrusion 11 by using an adhesive to block the space between the protrusion 11 and the protrusion 11 while being integrated with the space forming body 10.

The space-forming body 10 as described above may be made of elastic (non-osmotic) polyethylene (polyethylene), polypropylene (polypropylene), fluorine plastic (fluor plastic), and the like, inorganic flame retardant material, glass flame retardant material, mineral flame retardant material , Metal flame retardant, carbonized flame retardant and organic flame retardant are preferably used.

The reason for implementing the blocking sheet 20 as a flexible synthetic resin material is to absorb the remaining air propagation sound after the sound absorbing sheet 30 attached to the blocking sheet 20 is primarily absorbed by the air propagation sound.

That is, when the residual air propagation sound is transmitted to the blocking sheet 20, the blocking sheet 20 is flexibly moved to absorb the remaining air propagation sound again.

As the material of the barrier sheet 20, polyethylene, polypropylene, fluoroplastic, or the like is suitable.

The soundproof sheets 30 and 40 of FIG. 2 are positioned to be where the air propagation sound is first contacted among the building air panels so that most of the air propagation sound hit is absorbed.

The soundproof sheets 30 and 40 may use various materials already known.

In a specific example, a nonwoven fabric, a plastic film, or the like can be used.

In attaching the sound insulation sheets 30 and 40 to the upper portion of the blocking sheet 20 and the lower portion of the space forming member 10, it is most preferable to attach the sound insulation sheets 30 and 40 through an adhesive or the like, but may be attached in a velcro manner.

As the soundproof sheet 30 is attached to the upper portion of the blocking sheet 20 and the lower portion of the space forming member 10, there is an advantage in that the adhesion of the air panel of the present invention is easy.

The protrusion 11 of the space-forming body 10, which is a component of the present invention, is embodied in a columnar shape with an empty inside as shown in FIG. 1, and the sound-absorbing effect is absorbed by absorbing air propagation sound in the lower portion of the space-forming body 10. It is preferable to attach the soundproof sheet 40 to a height.

According to such a structure, the effect which the residual air propagation sound which passed the blocking sheet 20 is absorbed also by a process can be expected.

Of course, as the thickness of the projection 11 is thinner, the absorption effect of air propagation sound is increased, but the rigidity of the building air panel is relatively lowered.

Therefore, it is desirable to determine the thickness of the projection considering two things.

In the present invention, if the blocking wall 12 of the space-forming body 10 is implemented to absorb the vibration due to air propagation sound can increase the sound insulation effect.

However, when the blocking wall 12 of the space-forming body 10 is implemented to be thin enough to absorb vibrations caused by air propagation sound, the blocking sheet 20 and the blocking wall 12 may not be smoothly bonded.

Therefore, in implementing the barrier wall 12, when the thinner is implemented so as to have excellent absorption rate of vibration due to air propagation sound, the barrier wall 12 has a large area at the upper end as shown in FIG. It is preferable to implement in the "T" shape.

Of course, as shown in Figure 5, the blocking wall 12 of the space-forming body 10, the upper portion is formed to be mostly thin so as to be firmly attached to the blocking sheet 20 to excellent absorption efficiency of the vibration due to the airborne sound impingement It is also possible to implement such that the wide barrier wall 12 is positioned while forming a zone with the thin barrier wall 12 inside.

That is, the vibration absorbing efficiency is improved by the thin blocking wall 12, and the upper end portion is blocked by the vibration is not transmitted to the side by the wide blocking wall 12.

FIG. 4 shows that the blocking walls 12 are not all “T” shaped, but rather the “T” shaped blocking wall 12 is positioned to form a zone.

In implementing the building air panel according to the present invention, as shown in FIG. 6, the space-forming body 10 and the blocking sheet 20 may form one cell, and the cell may have a stacked structure.

This structure has the disadvantage of increasing the thickness of the building air panel, but the sound insulation and heat insulation effect can be significantly increased.

The present invention can be used for the construction of soundproofing and insulation in the construction field, such as construction of prefabricated buildings such as temporary buildings, industrial factories, warehouses, or internal wall construction of houses.

1 is a schematic perspective view for explaining a building air panel excellent in the thermal insulation and sound insulation effect of the present invention

Figure 2 is a schematic cross-sectional view for explaining a building air panel excellent in insulation and sound insulation effect of the present invention

Figure 3 is a perspective view for explaining a space-forming body that is a component of the present invention

4 is a schematic view for explaining a space-forming body having a blocking wall of a "T" shape;

5 is a schematic diagram for explaining a space-forming body having a thick blocking wall and a thin blocking wall and formed by a thick blocking wall;

6 is a schematic view for explaining a structure in which a space forming body and a blocking sheet form one cell and a plurality of cells are stacked;

<Explanation of symbols for main parts of drawing>

10: space forming body 11: projection

12: barrier wall 20: barrier sheet

30, 40: soundproof sheet

Claims (8)

A plurality of columnar protrusions 11 are formed toward the upper portion, and a blocking wall 12 is provided between the columnar protrusions 11 and the protrusions 11 so that the protrusions 11 and the protrusions 11 are disposed between the protrusions 11 and the protrusions 11. A space forming body 10 having a space formed therein; Blocking sheet made of a flexible synthetic resin bonded to the upper end of the protrusion 11 formed in the space forming body 10 to block the space between the protrusion 11 and the protrusion 11 and integrated with the space forming body 10 ( 20); Sound insulation sheet 30 to increase the sound insulation effect by absorbing the air propagation sound hit on the blocking sheet 20; Building air panel excellent in insulation and sound insulation, characterized in that comprises a. The method of claim 1, The height d2 of the blocking wall 12 is less than or equal to the height d1 of the protrusion 11, the building air panel excellent in insulation and soundproofing effect. The method of claim 1, The projection 11 of the space-forming body 10 is a hollow columnar shape, the lower portion of the space-forming body 10 is a sound-absorbing sheet 40 to increase the sound insulation effect by absorbing air propagation sound Building air panel with excellent insulation and sound insulation, characterized in that attached. The method of claim 1, The blocking wall 12 of the space forming body 10 is thinly formed so as to have excellent absorption efficiency of vibration due to the airborne sound impingement, but has a cross section so that the upper end portion has a large area to facilitate adhesion with the blocking sheet 20. Building air panel with excellent heat insulation and sound insulation, characterized in that having a "T" shape. The method of claim 1, The blocking wall 12 of the space-forming body 10 is formed to be mostly thin so as to have excellent absorption efficiency of vibrations caused by the air waves hitting the block, and a wide blocking wall at the upper end thereof so as to be firmly attached to the blocking sheet 20. The thin barrier wall is positioned inside to form a zone, so the vibration barrier efficiency of the thin barrier wall 12 is excellent and the transmission of vibration to the side is blocked by the barrier wall 12 having a wide upper end. Architectural air panel with excellent insulation and sound insulation effect. The method according to any one of claims 1 to 5, The soundproof sheet (30, 40) is a building air panel excellent in insulation and sound insulation effect, characterized in that the non-woven fabric. The method according to any one of claims 1 to 5, The space-forming body 10 and the sound insulation sheets 30 and 40 are excellent insulated and soundproofing effect, characterized in that made of any one selected from glass flame retardant, mineral flame retardant, metal flame retardant, carbon flame retardant, and organic flame retardant. Air panel. The method according to any one of claims 1 to 5, The space forming body 10 and the blocking sheet 20 forms a cell, and the building air panel excellent in heat insulation and soundproofing, characterized in that the cell has a stacked structure.

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