FR2664417A1 - Acoustic absorbent correction screen - Google Patents

Abstract

The present invention relates to an acoustic absorbent correction screen. This screen includes a rigid armature, of the type of a frame (1) encased in a jacket (6) for holding a porous material (5), of the vegetable or mineral fibre type, or even synthetic-foam type, which are packed inside the said frame (1), between a surface of the said jacket (6) stretched in positive support over the edges of this same frame (1), and at least one of the two surfaces (4a, 4b) of a panel (4) held inside the said frame (1) over at least one part of its perimeter (2) so as to serve as core for the said absorbent screen. The invention applies more particularly to the field of architectural acoustics, and relates in particular to the refurbishing of sites where the reverberation of sound is significant.

Description

ACOUSTIC CORRECTION ABSORBING SCREEN
The present invention relates to an absorbent acoustic correction screen. It applies more particularly to the field of architectural acoustics.

 The protection of premises against noise and vibrations has become an important concern in the architectural design of certain public places normally frequented by a large number of people at the same time, such as restaurants, canteens, indoor sports facilities (swimming pools , gymnasium, ...), concert halls, or some factories. Another aspect of architectural acoustics concerns the redevelopment of old places not originally intended to minimize ambient noise, or concert halls where the reverberation of sounds is very important. In known techniques, the judicious arrangement elementary acoustic correctors at various points in the room whose acoustics are to be corrected makes it possible to correct the reverberation times of sounds of a given frequency or frequency range, the reverberation of these sounds being at the origin of echo phenomena, interference generators amplifying or attenuating these sounds at places in the room mainly depending on its geometry, its layout and the nature of the materials covering the floor, walls and ceiling. , the acoustic correctors currently available are often very rudimentary and their use is neither simple nor very effective, in part regular if you want to correct the acoustics of rooms where noise spreads over a broad spectrum, which is the case with ambient noise; in this regard, the most common acoustic correctors are produced from a heap of mineral fibers, such as rock wool, contained in a fairly small package of the type of a rigid frame, for example rectangular , which is wrapped in a so-called "acoustic" fabric. The corrective screens thus formed have good efficiency in attenuating the high or mid frequencies, but given their small dimensions and the nature of their constituents, they are ill-suited for attenuation of bass sounds; moreover, the imbalance caused by a partial acoustic correction of a hall sometimes poses more problems than it solves, in particular in a concert hall.

 The present invention aims to remedy these drawbacks by proposing an absorbent screen for acoustic correction, characterized in that it comprises a rigid frame wrapped in a cover for holding a porous material, such as particularly vegetable or mineral fibers, or synthetic foams, which are piled up inside said frame between a surface of said cover, stretched in positive support on the edges of this same frame, and at least one of the two surfaces of a panel held at the interior of said frame over at least part of its periphery.

 According to a particularly advantageous embodiment of the invention, the panel serving as the core of the absorbent screen is made of a compact material having a high absorption coefficient for low acoustic frequencies. For example, it may be an agglomerate obtained by pressing soggy cellulosic materials, such as paper or cardboard (molded and pressed paper pulp), such an agglomerate being particularly light, rigid and compact.

 Unexpectedly, the absorbent screens according to the invention have the double advantage of having a core which is both sufficiently flexible to behave like a membrane attenuating the bass sounds by a wall effect, and sufficiently rigid and light to allow the realization of 'large absorbent screens, which greatly attenuates the lowest sounds.

 In addition, an agglomerate of the type of that previously mentioned has a certain porosity allowing it to attenuate certain mid or high frequencies significantly. Under these conditions, the intimate juxtaposition of the porous material contained in the frame and the less porous material of the panel itself provides a significant adaptation of the acoustic impedances of these two materials for the frequencies mainly medium of the sound spectrum; this impedance matching contributes to reducing the sound energy reflected on the surface of the panel, particularly in this frequency range, which consequently increases the energy absorbed by this same panel in a first direction of propagation of the sounds, and by the layer of filling material juxtaposed to said panel in the reflected direction of the propagation of said sounds.

 In addition, it is clear that the association of a soul behaving like a membrane attenuating the serious sounds, and of porous materials (fibers and fabrics) attenuating the medium and acute sounds, realizes an absorbent corrector screen presenting a coefficient of sound absorption staged over the whole sound spectrum - this coefficient a, called Sabine absorption coefficient, is directly related to the reverberation time, the latter decreasing when a increases -.

It will be noted that such staging does not result solely from the pure and simple addition of the attenuation coefficients of each of the constituent elements of the absorbent screen according to the invention, since, due to the juxtaposition of the membrane slightly porous and porous materials for filling the screen, we have seen that there is an effect of strengthening the absorption coefficient of sounds of medium frequency.

Other characteristics and advantages of the present invention will emerge more clearly from the following description of an embodiment of an absorbent screen for acoustic correction given by way of nonlimiting example with reference to the appended drawings in which
FIG. 1 is an exploded perspective view of the assembly of a corrective screen according to the invention,
- Figure 2 is measurement curves of the Sabine absorption coefficients a, as a function of frequency, of a surface covered with a set of absorbent screens according to the invention.

 The absorbent acoustic correction screen shown in FIG. 1 first of all comprises a frame of the type of a rectangular frame 1, for example made of wood, on the internal face of which grooves 2 are made allowing the edges to be inserted therein. 3 of a rectangular panel 4; a mineral fiber fabric 5, of the type of glass wool or rock wool, is arranged at least on one side of the panel 4 and is kept in contact with at least one of the faces 4a, 4b of this panel with a cover 6 of an "acoustic" fabric which is threaded like a sock around the frame 1. A seam 6a makes it possible to close the cover 6, but one could just as easily replace the seam 6a with a zipper or with self-adhesive tapes. The "acoustic" fabric used to make the cover 6 can for example be a fabric of the registered trademark "Veltofix" which is in common use in the field of the invention.

 Preferably, the panel 4 serving as the core of the absorbent screen is disposed substantially in the median plane of said screen, and, moreover, provision is made to pile mineral or vegetable fibers 5 on each side of said panel 4; in this way, the absorbent screen constitutes an active acoustic corrector on each of its faces and it is therefore reversible. Of course, the fibers 5 used here can be replaced by synthetic foams having more or less open and more or less large internal cells.

 In this respect, and unlike the acoustic correctors already known, it is particularly advantageous to fix the absorbent screen according to the invention in substantially vertical suspension at a distance and in a predetermined orientation relative to a wall of a room which one wishes modifying the acoustics, or alternatively in substantially horizontal suspension at a distance and in a predetermined orientation relative to the ceiling of said room. A double wall effect is thus obtained, the efficiency of which is well known for absorbing sounds, a quarter of the wavelength of which is less than the distance separating the absorbent acoustic correction screen from the wall, or the ceiling, near which it is placed. Such an effect is appreciable only if the screen is sufficiently absorbent in the range of bass sounds, which is precisely the case with the present invention - it is recalled that the wavelengths acoustic range from 17 mm for an acute frequency of 20,000 herz to 17 m for a low frequency of 20 herz -.

 According to a preferred embodiment of the invention, the panel 4 in fact constitutes a vibrating membrane for the most serious sounds which it dampens by a single wall effect well known in itself. In addition, the panel 4 is preferably made of a material allowing a high absorption effect for the serious acoustic frequencies: it can for example be an agglomerate obtained by pressing soggy cellulosic materials, such as paper or cardboard, which are optionally mixed with vegetable or mineral fibers.

Such an agglomerate, which is in particular marketed under the registered trademark "Pan-TERRE", has a density equal to 0.32; it is therefore very light, which allows the production of absorbent screens for acoustic correction of large dimensions favoring the effects of single and double walls due to the panel 4. For example, it has been possible to produce absorbent screens with from rectangular panels 4 with an area up to 3 m2 (panels 4 0.625 m wide by lengths of 1.25 m, 2.50 m and 3.75 m), these panels 4 having a thickness of 12 millimeters; they have been inserted into a wooden frame 1 of dimensions equivalent to those of panel 4, this frame 1 having a thickness of 75 millimeters to leave on each side of panel 4, placed in the median plane of said frame 1, a space intended for be filled with a rock wool fabric with a thickness of approximately 30 millimeters.

 Such dimensions also make it possible to cover a large percentage of the installation area of absorbent screens with a limited number of such screens, spaced from each other by a greater or lesser distance depending on the acoustic parameters of the room than we want to equip. The value of this spacing is moreover fundamental in determining the overall absorption coefficient a of the installation surface of the corrective screens. According to an additional characteristic of the invention, it has been demonstrated that the value of the spacing between absorbent screens should be understood, in the case of a rectangular acoustic correction screen, substantially between the width and the length of this screen. , which makes it possible to achieve a coverage rate of the implantation surface of between 30% and 60%. In FIG. 2, the measurement curves of the Sabine a absorption coefficients are plotted, as a function of the frequency , with an implantation surface having a coverage rate equal to 38% (curve C1) and 51% (curve C2) in both cases, absorbent rectangular acoustic correction screens of dimensions 2.50 m * O, 625 m, spaced 1 meter and 60 centimeters apart, respectively. On these curves, we notice the particularly high absorption coefficient obtained for the sounds of medium frequency (from 1000 to 4000 herz).

 The present invention is of course not limited by the description which has just been given by way of nonlimiting example or by the appended drawings representing it, but on the contrary extends to all the embodiments of absorbent screens of acoustic correction carried out in his mind from the combination of elements equivalent to those described or represented in the figures. In particular, if rectangular corrective screens are described, it is quite obvious that screens of any shape and any thickness could be produced using a technique directly inspired by that given above. Furthermore, for the acoustic correction of a room, we have corrective absorbent screens of different sizes which can be combined or juxtaposed according to a geometry specific to this room resulting from acoustics calculations that can be carried out from data normally controlled by a tradesman.

 The invention applies more particularly to the field of architectural acoustics, and relates in particular to the redevelopment of places where the reverberation of sounds is important.

Claims (6)

 1 - Acoustic correction absorbing screen, characterized in that it comprises a rigid frame, of the type of a frame (1) wrapped in a cover (6) for the maintenance of a porous material, such as particularly plant fibers or mineral (5), or synthetic foams, which are piled up inside said frame (1), between a surface of said cover (6) stretched in positive support on the edges of this same frame (1), and at least one of the two surfaces (4a, 4b) of a panel (4) held inside said frame (1) on at least part of its periphery (2) to serve as a core for said absorbent screen.  2 - absorbent acoustic correction screen according to claim 1, characterized in that the panel (4) serving as the core of this absorbent screen is made of a material providing a high absorption effect for serious acoustic frequencies.  3 - absorbent acoustic correction screen according to claim 2, characterized in that the material of the panel (4) is an agglomerate obtained by pressing soggy cellulosic materials, such as paper or cardboard, optionally mixed with vegetable or mineral fibers.  4 - absorbent acoustic correction screen according to any one of the preceding claims, characterized in that the panel (4) serving as the core of this absorbent screen is disposed substantially in the median plane of said screen.  5 - absorbent acoustic correction screen according to any one of the preceding claims, characterized in that mineral or vegetable fibers, or even synthetic foams, are piled on each side of the panel (4) serving as the core of this absorbent screen , so that the latter constitutes an active acoustic corrector on each of its faces.  6 - Absorbent acoustic correction screen according to any one of the preceding claims, characterized in that it is arranged in substantially vertical suspension at a distance and in a predetermined orientation relative to a wall of a room which is to be modified. acoustic, or substantially horizontal suspension at a distance and in a predetermined orientation relative to the ceiling of said room.