RU2018106265A - SOUND-ABSORBING DESIGN - Google Patents

Claims (2)

1. Sound-absorbing structure made in the form of a housing with external and internal perforated walls, between which layers of sound-absorbing material are placed, the first layer being more rigid, made solid and profiled and fixed on the external surface, the second layer, softer than the first, made intermittent and located in the focus of the sound-reflecting surfaces of the first layer, while the first layer, more rigid, is made continuous and profiled, and the second layer, softer than the first, is intermittent and distributed laid in the focus of the sound-reflecting surfaces of the first layer, and the third layer of the sound-absorbing element is made of foamed sound-absorbing material, for example building sealing foam, and is located between the first, more rigid layer and the perforated surface of the sound-absorbing element, characterized in that the intermittent sound-absorbing layer located in focus the continuous profiled layer is made in the form of bodies of revolution, for example in the form of balls, or ellipsoids of revolution and is attached with rods parallel to x perforated surfaces that are rigidly connected to each other by means of vertical fasteners perpendicular to them, one end of which is rigidly fixed to a smooth surface, and the other 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 more rigid sound-absorbing material, in which the reflection coefficient of sound is greater than the coefficient of sound absorption, and the profiles are formed by spherical surfaces interconnected so that, in general, each of the profiles forms an integral dome-shaped profile focusing the reflected sound onto the same intermittent sound-absorbing layer, while the intermittent sound-absorbing layer located at the focus of the continuous profiled layer contains at least one hard resonant shell with resonant holes that serve as the neck of Helmholtz resonators, while the shell cavity represents an additional volume of Helmholtz resonators, moreover, as sound absorbing of a first material more rigid layer of material applied alyuminesoderzhaschih based alloys followed by filling them with air or titanium hydride having a density in the range of 0.5 ... 0.9 kg / m ³ with the following strength properties: compressive strength in the range of 5 ... 10 MPa, bending strength in the range of 10 ... 20 MPa, for example foam aluminum, and rockwool type mineral wool, or URSA type mineral wool, or P type cotton wool were used as sound-absorbing material of the second, softer layer. -75, or glass wool with lining with glass wool or foamed polymer, for example polyethylene or polypropylene, the material of the perforated surface is made of solid, decorative vibration damping materials, such as plastic compound such as "Agate", "Anti-Vibrate", "Shvim", and the inner surface of the perforated surface facing the sound-absorbing structure lined with an acoustically transparent material, such as fiberglass type EZ-100 or polymer type "Poviden", or intermittent sound-absorbing layer located in the focus the entire profiled layer is made with alternating solid bodies of revolution, for example in the form of balls, and hard resonant shells with resonant holes that serve as the neck of Helmholtz resonators, while the resonant holes are made of different diameters to absorb sound energy in a wide frequency range. 2. The sound-absorbing construction according to claim 1, characterized in that the continuous profiled layer of the sound-absorbing element is made of porous sound-absorbing ceramic material having a bulk density of 500 ÷ 1000 kg / m ³ and consisting of 100 mass parts of perlite with a particle diameter of 0.5 ÷ 2.0 mm, 100 ÷ 200 mass parts of one or more sintering materials and 10 ÷ 20 mass parts of binder materials.