RU2018100351A - WALL RESONANT PANEL - Google Patents

Claims (1)

A wall resonance panel containing smooth and perforated surfaces, between which is placed a combined sound-absorbing layer of complex shape, which is an alternation of solid sections and hollow sections, the frame of which is made of rigid sound-absorbing material based on aluminum-containing alloys and then filled with titanium hydride or air with density in within 0.5 ... 0.9 kg / m ³ with the following strength properties: compressive strength within 5 ... 10 MPa, bending strength within 10 ... 20 MPa, for example, aluminum foam, with hollow areas formed by prismatic surfaces having parallelogram shapes in sections, the inner surfaces of which have a toothed structure, with the tops of the teeth facing the inside of the prismatic surfaces, and the edges of the prismatic surfaces are fixed respectively on smooth and perforated surfaces, with cavities formed by smooth and perforated surfaces, between which the combined sound-absorbing layer of complex shape is located, are filled soft sound absorbing material of mineral wool basalt-based type "Rockwool" or "URSA", or basalt wool type P-75, or glass wool with glass cladding, while the inner surface of the perforated surface facing the sound-absorbing material is lined with an acoustically transparent material , for example fiberglass of type EZ-100 or polymer of type “Viside”, and hollow sections of cavities formed by prismatic surfaces are filled with foamed polymer, for example, polyethylene or polypropylene flax, with cavities hollow areas formed by prismatic surfaces, connected by resonant holes with cavities formed by smooth and perforated surfaces, between which is a combined sound-absorbing layer of complex shape, and inside the hollow sections, the inner surfaces of which have a jagged structure, are additional resonant elements, made in the form of spherical shells, the inner surface of which is connected by resonant inserts with cavities, located between the perforated surface and solid sections of the sound-absorbing element, characterized in that the additional resonant elements, made in the form of spherical shells, the inner surface of which is connected by resonant inserts with cavities located between the perforated surface and the continuous sections of the sound-absorbing element, are made of sound-reflecting material on magnesia binder based on fiberglass or fiberglass reinforcement, or sound reflecting material Therians based foil, or fiberglass or carbon fiber, or a plastic containing a filler as a reinforcing carbon fibers.