CZ26187U1 - Sound-absorbing means - Google Patents

Description

Technical field

The invention relates to a sound absorbing composition comprising at least one acoustic resonant membrane.

Background Art

Currently, a number of sound absorbing materials are known, the main task of which is to ensure environmental hygiene in terms of unwanted, disturbing, or harmful sound. noise. Typically, layers of porous materials (e.g., melamine, polyurethane or metal foam) or nonwovens (especially mineral or polymeric fibers) are used to attenuate higher-frequency sounds, and resonance-based structures to resonate the lower-frequency sounds with resonance one element, such as an acoustic resonance membrane, and its subsequent attenuation, converts acoustic energy into thermal energy.

Since each of these systems is usually only able to dampen sounds in a relatively narrow frequency band, and sounds outside this band can almost undisturb them, there is a general effort to combine its features into one sound absorbing device.

In this sense, for example, WO 2006108363 discloses a layered sound absorbing fabric comprising a layer of nanofibres having a diameter of up to 600 nanometers and a basis weight of 0.1 to 5 g.m ' ² , and at least one other layer of fibrous material. The nanofiber layer fulfills the function of an acoustic resonant diaphragm resonating at a low frequency, while another layer / material layer not only provides sufficient attenuation, while a substantial part of the sound energy accumulated in this acoustic resonant membrane is converted to heat but also attenuates the higher frequency sounds itself . However, in real use, this fabric only achieves good results for frequencies with a relatively narrow frequency spectrum of about 700 to 1300 Hz.

In addition, acoustic design elements / panels are increasingly being used, adding design and / or design to sound absorbing properties. artistic and / or informational value when carrying the author's work and / or design element and / or writing information eg in the form of a pictogram and / or at least one alphanumeric symbol, etc. These elements / panels are usually formed by a printed canvas embedded in foam, laminate , or a plasterboard, or a foam relief plate with a spatial relief, the sound absorbing properties of which are only due to the sound absorbing properties of the plate, so that they are again limited to sounds in a particular narrow frequency band.

The aim of the technical solution is thus to eliminate or at least minimize the disadvantages of the prior art and to design a sound absorbing means capable of damping sounds in the widest possible frequency band with good results and at the same time being used as a carrier of an authorial work and / or design element and or writing information, for example, in the form of at least one pictogram and / or at least one alphanumeric symbol, and the like.

The essence of the technical solution

The object of the invention is achieved by a sound-absorbing means comprising at least one acoustic resonance membrane, the principle of which is that the acoustic resonance membrane is mounted on and connected to the frame, overlapping at least one through hole formed in the frame and / or at least one space / shape at least partially delimited by the frame, and the frame is arranged on the visible side of the sound absorbing means. In this arrangement, the frame and / or the at least one frame opening and / or the at least one space / shape at least partially enclosed by the frame may form an artwork and / or design element and / or write information in the form of at least one pictogram and / or at least one alphanumeric symbol , wherein the sound-absorbing properties of the composition are determined by suitable sound-absorbing properties of the acoustic resonance membrane and, optionally, by the sound-absorbing properties

Frame or other material layers. Another advantage of this arrangement is the division of the sound resonance membrane into smaller resonant areas, which can oscillate with a different period and / or deflection, the resonance frequency of each being given, in addition to the overall resonance membrane properties, by the size and shape of the surface. As a result, the acoustic absorption of the acoustic resonance membrane thus deposited is higher than when it is placed on the entire surface of the resilient material layer or between two layers of resilient material, and the acoustic resonance membrane is able to absorb sounds in a relatively wide frequency spectrum very well.

The frame of this sound-absorbing means may be rigid, for example consisting of a rigid plate, a plastic foil or a grid, a group of interconnected linear and / or planar and / or spatial structures, at least a portion of the spatial body surface, or a wire structure, or be flexible when it is formed, for example, by a fabric, plastic or metal foil, mesh or grid with at least one through-hole and / or at least partially enclosing a space / shape, a network of points and / or linear and / or planar and / or spatial formations of the material solid state. In other variations it is possible to combine both types of frame, whereby, for example, the flexible frame is arranged in place of the through hole of the rigid frame or in the space / shape delimited by the at least partially rigid frame.

Furthermore, the rigid and flexible frame may be formed spatially shaped, for example, formed by at least a portion of the surface or walls of the spatial body and / or spatially shaped, e.g., at least partially convex, concave, etc.

In addition, the frame can also be formed as a multi-part, at least two of which are slidably and / or rotatably connected to one another.

For adjustment, respectively. the extension of the sound absorbing properties of the sound absorbing composition according to the invention to a wider frequency band is advantageous if its frame is a cavity resonator.

In all embodiments, the frame may, for example, be at least partially covered by an outer layer that includes through-holes that correspond to the through-holes of the frame and / or is transparent, so as not to obstruct the tracking of the copyright work and / or or a design element and / or writing information in the form of at least one pictogram and / or at least one alphanumeric symbol formed by an aperture (s) in the frame and / or space / shape at least partially bounded by the frame.

In addition, the at least one through-opening of the frame and / or the frame may be at least partially enclosed by the outer layer, which preferably includes through holes and / or is transparent, and protects the acoustic resonance membrane from mechanical damage or and / or writing information in the form of at least one pictogram and / or at least one alphanumeric symbol. A suitable outer layer is, for example, made of metal or plastic mesh or grid, glass or transparent plastic.

In order to further enhance the sound absorption properties of the sound absorbing composition according to the invention, a soundproofing element and / or a soundproofing layer is disposed behind the frame and the acoustic resonance membrane.

Any known layer of material with suitable acoustic properties, such as a layer of polymer nanofibres, a combination of at least two superimposed layers of nanofibers, a synthetic film, a cellulose film, a metal foil, a layer of paper, a layer of fibers, a combination of at least two on layers of fibers, or a combination of any two of these layers, etc. The membrane may be perforated to further enhance its damping properties.

In order to achieve the desired stiffness or other mechanical parameters, the acoustic resonance membrane may furthermore be provided on at least a portion of at least one of its surface with a reinforcement of

-2CZ 26187 U1 groups of metal or plastic foil, mesh or lattice, fabric layer, net of points and / or linear and / or planar and / or spatial formations of the material, etc.

In all variants, the resonant acoustic membrane can be connected to the frame with positive, zero or negative voltage.

Furthermore, at least one suitable cover layer may be deposited on at least a portion of the surface of the acoustic resonant membrane to protect against mechanical damage and / or to achieve the desired stiffness or other mechanical parameter.

Clarifying drawings

1 is a cross-sectional view of a first exemplary embodiment of a sound absorbing composition according to the invention; FIG. 2 is a cross-sectional view of a second exemplary embodiment of a sound absorbing composition according to the invention; and FIG. an absorbent composition according to the invention.

Examples of technical solutions

The principle of the sound-absorbing device (Fig. 1, Fig. 2 and Fig. 3) according to the invention is based on the use of an acoustic resonance membrane 1 which is mounted on a rigid frame 21 or a flexible frame 22 in which at least one through-hole 3 is formed and / or which at least partially encloses the space (shape 30) (FIG. 3) which the acoustic resonance membrane overlaps. At the impact of low frequency sound waves, the acoustic resonance membrane 7 is then fed into the forced oscillations, by friction against ambient air, by frame 2 (or rigid frame 21 or flexible frame 22) and air or other material disposed in the through hole (s). 3 of the frame 2, and possibly also of other layers of the sound absorbing means in contact with it, attenuation of its vibration and its kinetic energy to heat energy. Part of the kinetic energy of the acoustic resonance membrane 1 is also converted into thermal energy due to the increased friction in its internal structure, which is mainly due to the movement of the individual fibers and the deformation of its internal structure. Adjacent portions of the resonance membrane 1 separated at least partially by frame 2 and 2, respectively. the overlapping apertures 3 are separate resonant pads which can oscillate with a different period and / or deflection, the resonance frequency of each of which is, in addition to the overall resonant membrane properties, also the size and shape of the pad. As a result, the acoustic absorption of the acoustic resonance membrane thus deposited is higher than in another, e.g., the entire surface of the resilient material layer, or between two layers of resilient material, e.g., textile, as in the embodiment of WO 2006108363, At the same time, the resonance pad is capable of absorbing sounds in a relatively wide frequency spectrum very well. A further advantage is that the frame 2 can simultaneously absorb higher frequency sounds, since it can be made of a material with suitable sound absorbing properties and / or can function, for example, as a cavity resonator.

The acoustic resonant diaphragm I is connected to the frame 2 by means of a suitable binder, for example fusible or laminated, and the like, whereby the material of the acoustic resonant diaphragm and / or frame 2, or the carrier layer material (not shown), on which the acoustic resonance membrane is used, can serve as binder. i saved.

Since the sound absorbing composition according to the invention is arranged in the application (Fig. 1 and Fig. 2) such that the frame 2 is mounted on its visible side, the acoustic resonance membrane is also at least partially protected from mechanical damage, and the frame 2 and / or the through-hole / apertures 3 in the frame 2 may simultaneously form a visible copyright work and / or design element and / or write information eg in the form of at least one pictogram and / or at least one alphanumeric symbol, etc. At least a portion of the outer an outer layer 4 (FIG. 2) which has through holes and / or is transparent can be accommodated in the frame 2, so that it does not hinder the viewing of the copyright work and / or design element and / or information,

If necessary, it may at least partially protect the frame 2 from mechanical damage, possibly increase its stiffness and / or adapt its appearance to the given requirements. In a further variant, at least some of the passage opening 3 of the frame 2 or the frame 2 is at least partially filled with such a layer by at least partially enclosed space / shape 30. A suitable material of the outer layer 4 is eg a plastic film or a plastic or metal grid (regular or irregular), glass layer or transparent plastic (e.g., polymethyl methacrylate (PMMA), carbonate, etc.), fabrics, and the like.

The following can also be used as an acoustic resonance membrane:

a) a separate layer of polymer nanofibres, which is made of polymer nanofibres from one material,

b) a separate layer of polymer nanofibres, which is made up of at least two types of polymer nanofibres differing in material and / or diameter of nanofibres and / or orientation of nanofibres,

(c) a layer of polymeric nanofibres as referred to in (a) or (b) which is deposited on a suitable undercoat to which it has been deposited during its manufacture by electrospinning or to which it has been transferred after its manufacture, such as on a fabric, grid, mesh, metal or a plastic film (e.g., a bubble film), a layer of foam material, a layer of airgel, a layer containing aerogel as one of its parts, etc., or on another backing layer containing any combination of these materials, wherein the layer of nanofibers may be with the backing layer for example, through a suitable binder and / or lamination, the backing layer may then be arranged towards or away from the frame 2,

d) a layer of polymer nanofibres according to any one of a) to c), which comprises at least a part of at least one of its surface supported reinforcement, such as metal or plastic foil, grid or net (regular or irregular), which is connected with the layer of polymeric nanofibres for example, by means of a suitable binder and / or laminating, and / or a network of formations (points, fibers, strips, planar or spatial formations, etc.) of the solid state material which at least partially interfere with the layer thickness of the polymer nanofibers and encapsulate a portion of their nanofibres and / or or are at least partially wrapped with nanofiber material and / or are bonded with nanofibers by their adhesion properties,

e) at least two identical or, in terms of material and / or area and / or diameter, nanofibres and / or nanofibre orientations different layers of polymer nanofibres, each according to any one of a) to d), wherein the layers may be interconnected, for example, by a suitable binder and / or lamination and / or adhesive forces generated by the application of one layer of polymeric nanofibers to the other by electrospinning;

(f) synthetic film (for example, expanded polytetrafluoroethylene, polyethylene film (eg, low density polyethylene / LD / LLDPE low density polyethylene, such as Sarantis Cling Film, Greece)), which is homogeneous as required; perforated

(g) cellulosic film, which is homogeneous or perforated as necessary;

(h) a film according to (f) or (g), which is provided with a reinforcement such as a metal or plastic film, a net or a grid (regular or irregular), a fabric layer, a net of points and / or linear and / or planar and / or spatial formations of the material in a solid state, wherein the reinforcement may be connected to it, for example, by means of a suitable binder and / or lamination,

(i) a metal foil which is as homogeneous or perforated as necessary;

(j) a layer of paper which is as homogeneous or perforated as necessary;

(k) a layer of fibers formed from fibers of one material;

-4CZ 26187 Ul

l) a layer of fibers made up of several types of fibers differing in fiber material and / or diameter;

(m) at least two identical or, in terms of material and / or area and / or fiber diameter, different fiber layers, each according to any one of k) or 1), which layers may be interconnected, for example, by a suitable binders and / or laminating,

(n) a layer according to any one of (j) to (m), which is provided with a reinforcement such as a metal or plastic film, a mesh or grid (regular or irregular), a fabric layer, a net of points and / or linear and / or planar solids a condition which is connected to it by, for example, a suitable binder and / or lamination,

(o) any layer (s) according to (a) to (n) provided with a suitable coating, eg treatment to increase non-flammability and / or hydrophobicity or hydrophilicity and / or oleophobicity and / or electrical conductivity and / or spotting; plasma treatment and / or spraying and / or coating and / or coloring, etc.

p) a combination of at least two layers / foils according to a) to o).

If the acoustic resonance membrane is formed by a layer of polymeric nanofibres, or if the layer of polymeric nanofibres contains as one of its components, it is advantageous if it is a layer formed by so-called non-jet electrostatic spinning, in which the solution or melt of the polymer is spun in an electric field. from the surface of the spinning electrode of elongated shape - for example a cylinder (see eg EP 1673493) or strings (see eg EP 2059630 or EP 2173930). This technology, which is commercially used by Elmarco, Czech Republic, creates a layer of polymeric nanofibres with the greatest uniformity in the direction of its length, width and thickness, and therefore also with more uniform acoustic properties in the entire area. In addition, this technology also achieves the highest performance.

The rigid frame 21 is then formed by a rigid body, such as a plate or a group of interconnected linear and / or planar and / or spatial formations of:

(a) paper and / or cardboard, \ t

b) plastic,

c) a composite (in the general sense solids embedded in a matrix, such as carbon fibers and / or nanofibers and / or nanotubes embedded in a plastic or resin matrix, etc.)

d) fibrous material, incl. textiles and nonwovens (eg mineral or polymer fibers, etc.)

e) concrete,

(f) aerated concrete (eg gas silicate, foam silicate, gas concrete, foam concrete, etc.); \ t

g) vermiculite

h) glass, incl. mirrors,

(i) bricks / bricks;

(j) foam material (eg extruded and / or expanded polystyrene, polyurethane, melamine or metal, etc.);

(k) drywall;

l) wood (including veneer, plywood, chipboard, etc.)

m) metal (incl. stainless steel)

(n) ceramics;

-5CZ 26187 Ul

o) aerogel or material containing airgel as one of its components

p) a combination of at least two materials according to a) to o).

In this case, the planar body may be provided, if necessary, with spatial shaping, such as relief and / or at least one deflection (in particular outward), etc. In other variations, the rigid frame 21 is formed by a planar or spatially shaped portion (e.g. the surface of the spatial body 5 (see FIG. 2). This part of the surface can also be provided with spatial shaping, such as relief and / or at least one deflection (especially outward), and the like.

A specific variant is then an embodiment where the rigid frame 21 is formed at least partially by a wire, respectively. a wire frame / structure formed in a plane and / or space.

In other embodiments, it is preferable if the frame 2 is formed as a flexible frame 22. In this case, it is formed, for example, by a layer of flexible, respectively. flexible material, such as a fabric, plastic or metal foil, mesh or grid (regular or irregular) with at least one through hole 3 and / or delimiting at least some space / shape 30, the opening 3 and / or space / shape and / or the flexible frame 22 forms an author's work and / or a design element and / or writing information, for example, in the form of at least one pictogram and / or at least one alphanumeric symbol, etc., or at least one, but preferably a network of solid material formations in a solid state that are not rigidly interconnected and which are arranged to delimit space / shape 30 and form an author's work and / or design element and / or write information, e.g., in the form of at least one pictogram and / or at least one alphanumeric symbol, and the like. These formations, which may include an aperture / aperture 3, respectively. in this case, the material may extend over the entire thickness of the acoustic resonance membrane 1, and if the membrane I is made of fibers / nanofibers, it may be bonded to encapsulate a portion of these fibers / nanofibres. In other variations, the flexible frame is 22, respectively. its structures are connected to the acoustic resonance membrane I by means of a suitable, binder or fiber material / nanofiber, which is either melted and thus attached to the formations of the flexible frame 22, these structures being at least partially wrapped with fiber / nanofiber material or having adhesive properties. The binder material used here may be the material of the acoustic resonance membrane I and / or the material of these structures, or the material of the carrier layer (not shown) on which the acoustic resonance membrane 1 is mounted.

At least some of the structures of the flexible frame 22 may also be used to connect the acoustic resonance diaphragm I to the rigid frame 21, or to another layer of the sound absorbing composition according to the invention and / or to the surface to which the sound absorbing composition is applied, while simultaneously they reinforce and partially also protect against mechanical damage, especially abrasion. These formations are formed, for example, by points and / or linear formations, such as fibers and / or stripes, and / or planar and / or spatial formations, which may be located only on the perimeter of the acoustic resonance membrane 1 or at least a portion thereof, or its entire area. At the same time, the density and shape of the network of these structures determine the resonance frequency of the sound absorbing composition according to the invention. In a preferred embodiment, at least one such structure is located in the passage opening (s) 3 or space (30) bounded by the at least partially rigid frame 21, modulating the oscillation shape and the resonance frequency of the resonant acoustic resonant membrane U

In another embodiment, the flexible frame 22 is formed by at least one linear and / or planar and / or spatial formation that can be accommodated on at least a portion of the perimeter of the acoustic resonance membrane I or on a portion of its surface and which forms the author's work and / or design element and / or writing information, for example, in the form of at least one pictogram and / or at least one alphanumeric symbol, etc., or comprising such a through hole 3.

A suitable material of the flexible frame structure 22 and / or the acoustic resonance membrane reinforcement i is, for example, a polymer or a mixture of polymers, optionally an inorganic glass, glass silicate, crystalline silicate, metal oxide, semi-metal oxide, or organic-anor-6C 26187 Ulganic substance. comprising a metal alkoxide, an alkali metal alkoxide, an alkaline earth metal alkoxide, a transition metal alkoxide, a metallox alkoxide, a metal salt, an alkali metal salt, an alkaline earth metal salt, a transition metal salt, a half metal salt, an organometallic compound, an organometallic chelate, a silicate, a metal, an oxide metal, etc., optionally a mixture of at least two of them.

The various embodiments of the flexible frame 22 can be combined in any arbitrary manner, and various variants of the flexible frame 22 can be combined with different variants of the rigid frame 21, for example a portion of the acoustic resonance membrane 1 which overlaps the through hole / holes 3 of the rigid frame 21 and / or rigid at least partially enclosed by the frame (30), may be simultaneously mounted on the flexible frame (22), which may be at least partially connected to the rigid frame (21), or which may be independent of the rigid frame (21). The rigid frame 21 as well as the flexible frame 22 can also be formed as a multi-part, the individual parts of which can be relative to one another due to the use of a suitable joint (eg hinge / hinges and / or hinge / joints and / or fibrous material and / or chain and / or other joints) (eg rotating and / or sliding, etc.).

Any of the above-described frame 2 embodiments can be combined with any of the above described acoustic resonance diaphragm embodiments.

In all the embodiments described above, the acoustic resonance diaphragm 1 and the frame 2 are connected either in a pre-tensioned, tensioned or free state, respectively. with positive, zero or negative voltage, whereby its acoustic properties can be adapted at least in part to the sound / sound parameters in the medium in which the sound absorbing composition is to be applied according to the invention. In addition, its sound-absorbing properties can also be adapted by the basis weight and / or acoustic resonance membrane material, possibly by using multiple equal or different acoustic resonance membranes.

The sound-absorbing composition thus formed can be further supplemented by further layers of material, for example, on the free surface of the acoustic resonance membrane 1, respectively. on its surface facing away from the frame 2, at least one additional material layer (not shown) may be provided, if necessary, which protects the acoustic resonance membrane from mechanical damage and / or increases the sound absorption of the composition according to the invention. For example, a layer may be used as a cover layer:

(a) paper and / or cardboard, \ t

(b) metal or plastic foil or grid (regular or irregular);

c) fibrous material, incl. fabrics and nonwovens (eg mineral or polymer fibers, etc.)

(d) glass.

(e) foam material (eg extruded and / or expanded polystyrene, polyurethane, melamine or metal, etc.);

(f) wood (including veneer, plywood, chipboard, etc.); \ t

g) aerogel or material containing airgel as one of its components

h) combining at least two materials according to a) to g).

The same material can also form the outer layer 4.

In this case, the cover layer can be connected to the acoustic resonance membrane by means of a suitable binder, e.g. melt and / or lamination. The binder may be a material of an acoustic resonance membrane 1 and / or a cover layer, or a support layer material (not shown) on which the acoustic resonance membrane is mounted, or a binder layer material (not shown) interposed between the acoustic resonance membrane 1 and the frame 2.

In other embodiments, the at least one cover layer is positioned between the frame 2 and the acoustic resonance membrane 1.

-7GB 26187 Ul

In order to further enhance the sound absorbing properties of the sound absorbing composition according to the invention, it may be between the frame 2 and the surface onto which the sound absorbing composition according to the invention is applied or applied. behind the frame 2 and the acoustic resonance membrane 1 a soundproofing element / layer 6 (FIG. 2) of soundproof material, such as vinyl, rubber, so-called " heavy film " oil and other additives, etc.), a composite (in general, matrix-encapsulated particles such as carbon fibers and / or nanofibers and / or nanotubes embedded in a plastic or resin matrix, etc.), etc., or at least one layer of sound absorbent material such as fabric.

In various embodiments, the frame 2 of the sound absorbing means, whether rigid frame 21 or flexible frame 22, is arranged either on at least a portion at the periphery of the acoustic resonance membrane I (see, e.g., FIG. 3) and / or at least partially in its area. If the frame 2 does not provide sufficient support for the acoustic resonance membrane 1 when arranged in the acoustic resonant membrane I area, such support may be provided, for example, by appropriately selecting the cover and / or outer layers 4 and / or the arrangement of the sound absorbing means.

The sound absorbing agent according to the technical solution can be used in space acoustics such as acoustic body, facing, ceiling, screen, screen, interior partition, sliding front panel (Japanese blinds), curtain, plinth, curtain, lampshade, floral cover, supporting panel for TV, white cover, noisy device cover (eg computer, hood, air conditioner, etc.), heat distribution cover (eg radiator, infrared radiator, etc.), shaft cover, switch box cover, storage door ( eg kitchen cabinets, wardrobe, etc.), back of seating furniture, canopy, advertising panel, half-board, etc.

Claims (22)

PROTECTION REQUIREMENTS Sound absorbing means comprising at least one acoustic resonant membrane (1), characterized in that the acoustic resonant membrane (1) is mounted on and connected to the frame (2) and overlaps at least one through hole (3) formed in a frame (2) and / or at least one space / shape (30) at least partially bounded by the frame (2), and the frame (2) is arranged on the view side of the sound absorbing means. Sound-absorbing means according to claim 1, characterized in that the frame (2) and / or the at least one through hole (3) of the frame (2) and / or at least one space / shape (30) at least partially bounded by the frame (2) it constitutes a work of art and / or a design element and / or an information entry in the form of at least one pictogram and / or at least one alphanumeric symbol. Sound absorbing device according to claim 1 or 2, characterized in that the frame (2) is a rigid frame (21). Sound absorbing device according to claim 3, characterized in that the rigid frame (2) is formed by a rigid plate, plastic or metal foil or grid, a plurality of interconnected linear and / or planar and / or spatial formations, at least a portion of the surface of the spatial body (2). 5) or a wire structure. Sound absorbing means according to claim 1 or 2, characterized in that the frame (2) is a flexible frame (22). Sound-absorbing composition according to claim 5, characterized in that the flexible frame (22) is formed by a textile, plastic or metal foil, a mesh or a grid with at least one The U1 through hole (3) and / or bounding at least partially the space / shape (30), a network of points and / or linear and / or planar and / or spatial formations of material in the solid state. Sound-absorbing device according to claim 5 or 6, characterized in that the flexible frame (2) is arranged at the location of the through hole (3) of the rigid frame (2) or in the space / shape (30) bounded by the at least partially rigid frame (2). ). Sound-absorbing composition according to any one of the preceding claims, characterized in that the frame (2,21, 22) is spatially shaped. Sound-absorbing means according to any one of the preceding claims, characterized in that the frame (2, 21, 22) is formed by at least two parts, which are connected to each other in sliding and / or pivotal fashion. Sound absorbing device according to any one of the preceding claims, characterized in that the frame (2,21,22) is formed by a cavity resonator. Sound absorbing device according to any one of the preceding claims, characterized in that the frame (2, 21, 22) is at least partially covered from the outside by an outer layer (4) which comprises at least one through hole and / or is transparent. Sound absorbing device according to any one of the preceding claims, characterized in that the at least one through hole (3) of the frame (2, 21, 22) and / or the at least one frame (2, 21, 22) has an at least partially delimited space / shape. (30) is covered or at least partially filled with an outer layer (4) that comprises at least one through hole and / or is transparent. Sound absorbing device according to any one of the preceding claims, characterized in that the at least one through hole (3) of the frame (2, 21, 22) and / or the at least one frame (2, 21, 22) has an at least partially delimited space / shape. (30) is at least partially filled with an outer layer (4). Sound absorbing composition according to claim 11 or 12, characterized in that the outer layer is made of a metal or plastic mesh or grid, glass or transparent plastic. Sound absorbing device according to any one of the preceding claims, characterized in that a sound-absorbing element and / or a layer of sound-proof material is placed behind the frame (2, 21, 22) and the acoustic resonant membrane (1). Sound absorbing composition according to any one of the preceding claims, characterized in that the acoustic resonant membrane (1) is an acoustic resonant membrane (1) selected from the group of polymer nanofibers, a combination of at least two nanofibers layers, synthetic film, cellulose film, metal a film, a paper layer, a fiber layer, a combination of at least two superimposed layers of fibers, or combinations thereof. The sound absorbing composition of claim 16, wherein the resonant membrane is perforated. Sound-absorbing composition according to any one of the preceding claims, characterized in that the acoustic resonant membrane (1) is provided with at least a part of at least one surface with a reinforcement from the group of metal or plastic foil, net or grid, fabric layer, dot net and / or linear and / or planar and / or spatial formations of the material in the solid state. -9EN 26187 Ul Sound absorbing means according to any one of the preceding claims, characterized in that the acoustic resonant membrane (1) is connected to the frame (2, 21, 22) with a positive voltage. Sound absorbing device according to any one of claims 1 to 18, characterized in that the acoustic resonant membrane (1) is connected to the frame (2, 21, 22) at zero voltage. Sound absorbing device according to any one of claims 1 to 18, characterized in that the acoustic resonant membrane (1) is connected to the frame (2,21, 22) with a negative voltage. Sound absorbing device according to any one of the preceding claims, characterized in that at least one covering layer is deposited on at least a part of the surface of the acoustic resonant membrane (1) facing away from the frame (2, 21, 22).