RU2019106009A - ACOUSTIC GUARD - Google Patents

Claims (1)

Acoustic enclosure, made in the form of a solid, rigid and perforated walls, between which there is a sound-absorbing element made in the form of four layers: the first sound-reflecting layer is made of solid and profiled, a complex multifaceted profile, consisting of inclined edges connected in the lower part by horizontal edges , and between the edges and the rigid wall there is a second layer of sound-absorbing material, while between the perforated wall and the sound-reflecting layer, with an air gap, relative to the sound-reflecting layer, there is a third discontinuous layer of soft sound-absorbing material, which is fixed on the perforated wall, and is made in the form polyhedrons, with equidistant and congruent surfaces located under the corresponding edges of the sound-reflecting layer, while the continuous, sound-reflecting profiled layer is made of a material whose sound reflection coefficient is greater than the sound absorption coefficient, n Moreover, the perforation coefficient of the perforated wall is taken to be equal to or more than 0.25, and to prevent the precipitation of a soft sound absorber, a fourth acoustically transparent layer is provided, for example, from glass cloth of the EZ-100 type, located between a layer of soft sound-absorbing material and a perforated wall, and the ratios of the parameters of the acoustic enclosure are in the following optimal ranges of values: H ₁ / H ₂ = 1.2 ... 1.35; d / H ₂ = 0.6 ... 1.25; t / d = 2.5 ... 4.5; where H ₁ is the thickness of the acoustic barrier, Н ₂ is the distance from the solid rigid wall to the horizontal edges of the polyhedral profile of the sound-reflecting layer, d is the maximum diameter of the polyhedrons, with equidistant and congruent surfaces located under the corresponding edges of the sound-reflecting layer, and located in the focus of the polyhedral profile of the sound-reflecting layer layer, t is the pitch of the polyhedron of the polyhedral profile, characterized in that in the cavities of the acoustic enclosure, bounded by a rigid wall and inclined edges, connected in the lower part by horizontal edges, there are Helmholtz resonators, each of which contains a rigid spherical shell located in such a way that the inclined faces are planes tangent to it, while at the points of contact of each of the inclined faces, resonator sleeves of various diameters and lengths are fixed, while the cut of each of the resonator sleeves is located in cavities bounded by inclined faces and intermittent layers of soft sound-absorbing material made in the form of polyhedrons with equidistant and congruent surfaces located under the corresponding inclined edges of the sound-reflecting layer of the sound-absorbing element of the acoustic barrier, while the material based on aluminum-containing alloys is used as a sound-reflecting material, followed by filling them with air with titanium with a density within 0.5 ... 0.9 kg / m ³ with the following strength properties: compressive strength within 5 ... 10 MPa, flexural strength within 10 ... 20 MPa, for example, foam aluminum, or soundproof plates based on glass staple fibers of the "Shumostop" type with a material density equal to 60 ÷ 80 kg / m ³ , or a material based on magnesia binder with reinforcing fiberglass or fiberglass is used as a sound-reflecting material, and polyester is used as a sound-absorbing material, or as a sound-absorbing material A porous fibrous or foamy sound-absorbing material is used, which is made on the basis of basalt or glass fibers, or open-cell polyurethane foam with a protective sound-transparent shell made of thin glass cloth or aluminized lavsan film.