RU2018132983A - SOUND-PROTECTING CASING WITH AERODYNAMIC NOISE SILENCING SYSTEM - Google Patents

Claims (1)

1. A soundproof casing with an aerodynamic noise suppression system made in the form of a rectangular parallelepiped covering technological equipment, which is installed on at least four vibration-insulating supports that are based on the ceiling of the building, while between the base of the technological equipment and the cutout in the lower face of the rectangular parallelepiped a clearance is made to prevent transmission of vibrations from the process equipment to the soundproof enclosure of the casing, and for To ensure the required microclimate during the process, a fan is installed inside the casing, and ventilation ducts are made in the soundproof fence to eliminate equipment overheating, while the inner walls of the ventilation ducts are treated with sound-absorbing material and acoustically transparent material of the “seen” type, while reducing the aerodynamic noise of the ventilation systems, mufflers are provided in the casing, installed respectively on the inlet and outlet ventilation channels, while on the inner surface of the soundproof fence, a sound-absorbing element is fixed in the form of smooth and perforated surfaces, between which a multilayer sound-absorbing structure is placed, while the silencers installed on the inlet and outlet ventilation ducts are made tubular, each noise suppressor contains a cylindrical body, rigidly connected to the front inlet and outlet pipes, a sound absorber located between the cylindrical body and forirovannym member and an acoustically transparent material disposed between the perforated member and the sound absorber, the ratio of length L to diameter muffler D of the cylindrical body lies in an optimum range of values: L / D = 0.6 ... 3.1; and the ratio of the difference between the outer D and inner d diameters to the length of the muffler L lies in the optimal range of values: (Dd) / L = 0.19 ... 0.63; and the ratio of the length of the muffler L to the inner d diameter of the nozzles lies in the optimal range of values: L / d = 0.96 ... 7.84; and the ratio of the lengths of the inlet and outlet pipes b to the length of the muffler L lies in the optimal range of values: b / L = 0.051 ... 0.104, and the sound absorber is made in the form of a sound-absorbing element of the ring type, characterized in that the sound-absorbing element with which the casing is lined on the inside, made in the form of a multilayer sound-absorbing structure, consisting of smooth and perforated surfaces, between which is placed a sound-absorbing structure of complex shape, which is an alternation of solid sections and PU solid sections, while the solid sections, in turn, are formed by smooth prismatic surfaces located perpendicular to the smooth and perforated surfaces and fixed to the smooth surface, as well as two surfaces connected with them and inclined, relatively smooth prismatic surfaces, of complex shape, having one the sides are a smooth surface, and on the other hand a serrated or serrated or spherical shape of the surface, the tops of the teeth or protrusions facing inside these surfaces, and the surfaces themselves are fixed on a perforated surface, and embossed sound-absorbing elements are attached to a smooth surface, for example, in the form of tetrahedrons, while material based on aluminum-containing alloys is used as sound-absorbing material, followed by filling them with titanium hydride or air with a density within 0.5 ... 0.9 kg / m ³ with the following strength properties: compressive strength in the range of 5 ... 10 MPa, the flexural strength in the range of 10 ... 20 MPa, for example, foam aluminum, or QUALITY The sound absorbing material of the second, softer layer is Rockwool-type mineral wool or URSA-type mineral wool, or P-75-type basalt wool or glass wool lined with glass wool, or foamed polymer, such as polyethylene or polypropylene and the material of the perforated surface is made of solid, decorative vibration-damping materials, for example, plastic compounds of the type “Agate”, “Anti-Vibrate”, “Shvim”, and the inner surface of the perforated surface facing towards the sound the absorbent structure is lined with an acoustically transparent material, such as fiberglass type EZ-100 or polymer like Poviden, and the hollow sections are filled with sound-absorbing material, such as construction foam, while inside surfaces of complex shape having a smooth surface on one side, and with on the other side is gear, a Helmholtz resonator is fixed, made in the form of a spherical surface with bushings with resonant holes diametrically fixed on it, while smooth prismatic surfaces the areas of the solid sections are interconnected, through alternation, by means of resonance elements, each of which is a Helmholtz resonator made in the form of a rectangular prism, mounted on it, and oppositely located on its faces, resonant bushings, while the resonant bushings mounted on the upper faces are turned towards embossed sound-absorbing elements, and the resonant sleeves mounted on the lower faces are turned towards the perforated surface, while the embossed sound absorbers ue elements made in the form of tetrahedrons that are attached to a smooth surface, fitted with alternating sound absorbing and resonant elements that constitute a Helmholtz resonator is formed as a tetrahedron, with sleeves attached to it with the resonant holes.