FR2967701A1 - Poor inflammable sound absorption structure for wooden frame housing of habitation, has grooves including distal faces, where sum of areas of faces is less than one-third of total area of developed surface forming lower side of structure - Google Patents

Abstract

The structure (11) has a set of wooden boards (12) regularly spaced with each other and oriented parallel with respect to each other. The boards cooperate with a lower face of sound-absorbing panel so as to define a set of grooves (15) at level of lower side (14). Each of the grooves includes a distal face (16) opposite to a bottom face (17). Sum of areas of the distal faces of the structure is less than one-third of total area of developed surface forming the lower side of the structure. The boards have same thickness (e) and width (l).

Description

LOW COMBUSTIBLE ACOUSTIC ABSORPTION STRUCTURE TECHNICAL FIELD

The present invention relates to the field of complexes for absorbing and / or correcting the acoustics of a room and having properties of fire resistance. Such structures are therefore generally made of flame retarded materials or intrinsically weakly combustible, or in any case, in case of fire, a low flammability fire reaction.

The invention more particularly relates to an acoustic absorption structure comprising wooden planks and being able to withstand fire significantly with such a low flammable fire reaction. Such a structure therefore makes it possible to limit the risks of propagation of fire. Indeed, wood is a material known to be easily flammable however in some constructive arrangements, it can become difficult to ignite, and this without the need for a chemical additive.

PRIOR ART

In general, the low-fuel and / or low-flammability acoustic absorption structures are made of a fibrous material, non-woven material or cardboard material in particular and are flame-retarded. In other words, such acoustic absorption structures are formed in a material corresponding to the class of materials of class Ml or MO in accordance with standard NF P. 92.507, in class A and B of the new Euroclasses of Standard EN 13501-1. .

However, such materials are not adapted to be arranged in dwellings and public areas (ERP) and more particularly when they are made of wood. Indeed, the nature of their material harmonizes with difficulty with an interior whose walls or floors are formed solely of wood.

Thus, the object of the invention is to provide an acoustic absorption structure constituting a finished product adapted in particular to be arranged in a wooden housing, and which has a particularly effective combustion resistance and a low or reduced flammability.

SUMMARY OF THE INVENTION

The invention therefore relates to a weakly combustible sound absorption structure which is characterized in that it comprises a plurality of wooden boards regularly spaced from each other and oriented parallel to each other, these boards cooperating with a face bottom of an acoustic panel so as to define, at least at an inner side intended to be oriented towards the interior of an enclosed space, a plurality of grooves each having a distal face opposite to a bottom face, the sum of the areas of the distal faces of the structure being less than one third of the total area of the developed surface forming the inner side of the structure.

In other words, the inner side of the structure has a particularly optimal geometry to avoid the combustion of wooden boards constituting it. Such an arrangement is achieved by means of the grooves whose depth is equal to the width f of the wooden boards used. Such a width f is adapted so that the area of the distal faces is less than one third of the total area of the inner side of the structure. This total surface intended to be oriented towards the inside of a closed space comprises both the surface of the distal faces, the surface of the bottom faces and the substantially vertical surfaces whose dimension is a function of the depth of the grooves f.

Therefore, according to this configuration, the areas exposed to flames during a fire have an area less than one-third of the area of the total surface of the inner side of the structure. Moreover, in the event of a fire below this sound absorption structure, the combustion then generates carbon dioxide which fills the internal volume of the grooves. The bottom faces and the substantially vertical faces of the grooves are then bathed in an atmosphere charged with carbon dioxide and therefore can not be burned, or only very slowly.

Such boards of wood may have different widths and thicknesses, and therefore be designated by the term "bastaings", "planks", "rafters" or slats depending on their size. The acoustic panels may in turn be formed by a fibrous material comprising mineral fibers, such as glass wool or rock in particular, or by a fibrous material comprising natural fibers, such as hemp, wood or cellulose especially.

Advantageously, the boards of the structure may be of the same thickness. Such an arrangement makes it possible to produce an acoustic absorption structure having a visual homogeneity. Furthermore, and according to a first embodiment, the boards of the structure may be spaced from each other by a distance di equal to the thickness and the boards.

Thus, such an acoustic absorption structure has a symmetrical geometry with grooves, the width of which corresponds to the spacing between two grooves and therefore which is equal to the thickness of the planks.

On the other hand, the area of the flame-exposed surface is in this case equal to the product of the length of the grooves by the thickness e1. The developed surface on the inner side is, for its part, equal to the product of the total length of the grooves by the sum 2e1 plus 2f.

As a result, such an acoustic absorption structure exhibits optimum combustion resistance if the depth f of the grooves is greater than or equal to the thickness and the planks.

According to a second embodiment, the boards of the structure may be spaced from each other by a distance dz smaller than the thickness ez of the boards.

Such an arrangement makes it possible to increase the proportion of the total area of the distal faces with respect to the total surface of the bottom faces. The grooves are therefore less visible which may be an advantage for certain applications where the sound absorption structure must be integrated with the utmost discretion.

According to a third embodiment, the boards of the structure may be spaced from each other by a distance d3 greater than the thickness e3 of the boards.

Thus, such an arrangement makes it possible to increase the proportion of the total area of the bottom faces relative to the total surface of the distal faces. The grooves are therefore more visible which may have an advantage for certain applications, especially concerning sound absorption with more visible insulation.

In practice, the boards of the structure can be of the same width f. Such an arrangement therefore makes it possible to produce an acoustic absorption structure having visual homogeneity by defining in plan.

Advantageously, the width f of the planks of the structure may be equal to the distance d4 separating two planks juxtaposed and the thickness e4 of these planks. In this case, the total area of the distal faces is equal to one quarter of the total area of the developed surface. This total area of the distal faces is then always less than one third of the total area of the developed surface and. According to a particular embodiment, the boards may comprise a characteristic flexural rupture limit greater than or equal to 18 MPa.

Such a type of board is then classified in the category C18, C24, C30 or C40 30 according to the EN 338 standard, defining the mechanical characteristics of the structures made of wood.

SUMMARY DESCRIPTION OF THE FIGURES The manner of carrying out the invention as well as the advantages which derive therefrom will clearly emerge from the following embodiment given by way of indication but not by way of limitation, in support of the appended figures in which FIGS. 4 show in cross section different variants of weakly combustible acoustic absorption structure and in accordance with the invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS As already mentioned, the invention relates to a weakly combustible acoustic absorption structure, that is to say corresponding to the class of materials of class Ml according to the standard NF P. 92.507 or Euro-class B according to EN13501-1 As shown in Figure 1, the acoustic absorption structure 11 comprises a plurality of wooden boards 12 having the same width k. In addition, the upper face of the boards 12 cooperates with a lower face of an acoustic panel 18. Such boards 12 thus make it possible to define grooves 15 arranged at an inner side 14 of the structure 11.

Such grooves 15 then have a depth k and a width di corresponding to the distance between two boards. Such grooves 15 are moreover delimited by a distal face 16 and a bottom face 17. In addition, in this variant, the thickness e 1 of the boards 12 is equal to the width d 1 of the grooves 15.

Thus, the area of the surface of the distal faces 16 is a function of the length of the boards and the thickness el. It is the same for the area of the surface of the bottom faces 17 since el is equal to di. The total developed surface of the inner side 14 has in turn, in addition, the two substantially vertical faces delimiting the groove 15. Such a surface is equal to the groove depth k multiplied by the length of the boards. Therefore, when the planks are spaced from the thickness e1, it suffices if the depth k is greater than or equal to half the thickness e1 so that the surface exposed to the flames is less than one third of the total area developed on the side. inside.

As shown in Figure 2, the acoustic absorption structure 21 also comprises wooden boards 22 having the same thickness ez. However, in this case, the thickness ez is greater than the distance dz separating two boards 22.

Thus, the surface exposed to the flames is equal to the length of the planks multiplied by the thickness ez wooden planks 22, while the total surface of the lower face 24 is equal to the length of the planks multiplied by the sum of the ez values. , dz and twice the depth k of the grooves 25.

As a result, such an acoustic absorption structure has an optimal resistance to combustion if the following mathematical formula is respected:

ez "1/3) * (ez + dz + 2 x k)

Similarly, and as shown in FIG. 3, it is also possible to use boards 33 whose thickness e3 is smaller than the distance d3 between two boards 32.

As a result, such an acoustic absorption structure has an optimal resistance to combustion if the following mathematical formula is respected: e3 "1/3) * (e3 + d3 + 2 x k)

According to the variant shown, in Figure 4, the acoustic absorption structure 41 also comprises wooden boards 42 having the same thickness e4. However, in this case, the thickness e4 is both equal to the distance d4 separating two boards 42 and the width k of the boards 42.

As a result, regardless of the value corresponding to the width k or the thickness e4 of the boards 42, such an acoustic absorption structure has an optimum resistance to combustion. Indeed, in this particular case, the sum of the areas of the distal faces 46 of the structure is equal to one quarter of the total area of the surface forming the lower side 44 of the structure. The sum of the areas of the distal faces 46 of the structure is therefore always less than one-third of the total area.

It follows from the foregoing that an acoustic absorption structure in accordance with the invention has many advantages, and notably: it makes it possible to produce a weakly combustible structure devoid of any fireproofing substance; - It is particularly suitable for the realization of wood frame housing, or ERP by design; - it allows different new ceilings designs.

Claims (8)

REVENDICATIONS1. Low-flammable acoustic absorption structure (11, 21, 31, 41), characterized in that it comprises a plurality of wooden planks (12, 22, 32, 42) regularly spaced from each other and oriented in parallel with each other. relative to others, said boards cooperating with a lower face of an acoustic panel (18) so as to define, at least at an inner side (14, 24, 34, 44) to be oriented inwardly an enclosed space, a plurality of grooves (15, 25, 35, 45) each having a distal face (16, 26, 36, 46) opposite a bottom face (17, 27, 37, 47), the sum of the areas of said distal faces (16, 26, 36, 46) of the structure being less than one third of the total area of the developed surface forming the inner side (14, 24, 34, 44) of the structure. 2. Structure according to claim 1, characterized in that the boards (12, 22, 32, 42) are of the same thickness el, e2, e3, e4. 3. Structure according to one of claims 1 or 2, characterized in that the boards (12, 42) are spaced from each other by a distance dl, d4 equal to the thickness e1, e4 said boards (12, 42). 4. Structure according to one of claims 1 or 2, characterized in that the boards (22) are spaced from each other by a distance d2 less than the thickness e2 said boards (22). 5. Structure according to one of claims 1 or 2, characterized in that the boards (32) are spaced from each other by a distance d3 greater than the thickness e3 of said boards (32). 6. Structure according to claim 1, characterized in that the boards (12, 22, 32, 42) are of the same width C.30 7. Structure according to claim 6, characterized in that the width t of the boards (42) is equal to the distance d4 between two boards juxtaposed and the thickness e4 said boards (42). 8. Structure according to claim 1, characterized in that the boards (12, 22, 32, 42) have a characteristic flexural rupture limit greater than or equal to 18 MPa.