RU2020100368A - ACOUSTIC DEVICE - Google Patents

Claims (1)

An acoustic device consisting of at least two sound-absorbing sections, each of which contains walls of corrugated perforated material, between which sound-absorbing elements are located, while the walls of the corrugated material are made with slotted perforations of stainless steel or galvanized sheet with a thickness of 0.7 mm with a polymer protective and decorative coating such as "Pural" with a thickness of 50 microns or "Polyester" with a thickness of 25 microns, or an aluminum sheet with a thickness of 1.0 mm and a coating thickness of 25 microns, and the sound-absorbing sections are suspended on cables by hooks, each of the sound-absorbing elements is made in the form of two perforated surfaces, between which layers of sound-absorbing material are placed, while the first layer, which is more rigid, is made continuous and profiled and fixed on the outer surface, the second layer, softer than the first, is made intermittent and is located in the focus of the sound-reflecting surfaces of the first layer, and the third layer of sound-absorbing ele The ment is made of foamed sound-absorbing material, for example, construction sealing foam, and is located between the first, more rigid layer, and the perforated surface of the sound-absorbing element, and the discontinuous sound-absorbing layer, located at the focus of the continuous profiled layer, is made in the form of bodies of revolution, for example, in the form of balls, ellipsoids of revolution and is fastened with rods parallel to perforated surfaces, which are rigidly connected to each other by means of vertical, perpendicular to them, fasteners, for example in the form of plates, one end of which is rigidly fixed on a smooth surface, and the second is made in the form of a clamp covering the rod and tightening it with a screw, while the continuous profiled layer is made of a harder sound-absorbing material, in which the sound reflection coefficient is greater than the sound absorption coefficient, and the profiles are formed by spherical surfaces interconnected in such a way that On the whole, each of the profiles forms an integral dome-shaped profile that focuses the reflected sound on the same soft intermittent sound-absorbing layer, while the intermittent sound-absorbing layer located at the focus of the continuous profiled layer is made in the form of bodies of revolution, for example, in the form of balls, and rigid resonant shells with resonance holes serving as the throat of Helmholtz resonators, while the resonance holes are made of different diameters to absorb sound energy in a wide frequency range, characterized in that the material based on aluminum-containing alloys is used as the sound-absorbing material of the first, more rigid layer, followed by filling them titanium hydride or air 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 as sound-absorbing material of the second, softer layer, mineral wool on a basalt basis of the "Rockwool" type, or mineral wool of the "URSA" type, or basalt wool of the P-75 type, or glass wool with glass felt lining, or a foamed polymer, such as polyethylene or polypropylene, is used, the material of the perforated surface is made of solid, decorative vibration damping materials, for example plastic compound of the Agat, Antivibrit, Shvim type, and the inner surface of the perforated surface facing the sound-absorbing structure is lined with acoustically transparent material, such as EZ-100 fiberglass or Poviden type polymer, as sound-absorbing material of the second, softer layer, a porous sound-absorbing ceramic material was used, having a bulk density of 500 ÷ 1000 kg / m ³ , and consisting of 100 mass parts of pearlite with a particle diameter of 0.5 ÷ 2.0 mm, 100 ÷ 200 mass parts of one or several sintering materials and 10 ÷ 20 mass parts of binding materials.