RU2018113120A - SOUND-PROTECTING CASING WITH AERODYNAMIC NOISE-SILENCING SYSTEM - Google Patents

Claims (1)

A soundproof casing with an aerodynamic silencing system made in the form of a rectangular parallelepiped covering technological equipment, characterized in that the technological equipment is installed on at least four vibration-isolating supports based on the ceiling of the building, while between the base of the technological equipment and the cutout in the lower face of a rectangular parallelepiped, a gap is made to exclude the transmission of vibrations from technological equipment to sound to the insulating guard of the casing, and 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 overheating of the equipment, while the inner walls of the ventilation ducts are treated with sound-absorbing material and acoustically transparent material of the “seen” type, in order to reduce the aerodynamic noise of the ventilation system, noise mufflers are installed in the casing Especially on the inlet and outlet ventilation ducts, while on the inner surface of the soundproofing fence there is a sound-absorbing element in the form of smooth and perforated surfaces, between which a multilayer sound-absorbing structure is placed, while the silencers installed respectively on the inlet and outlet ventilation ducts are made tubular, each muffler The noise contains a cylindrical body rigidly connected to the end inlet and outlet pipes, a sound absorber, located wedged between the cylindrical body and the perforated element, and an acoustically transparent material located between the perforated element and the sound absorber, the ratio of the length of the muffler L to the diameter D of the cylindrical body lies in the optimal 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: (D-d) / 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 and in the axial section is made in the form of a ring, the walls of which are made in the form of a rigid and perforated walls between which two layers are located: a sound-reflecting layer adjacent to the rigid wall, and a sound-absorbing layer adjacent to the perforated wall, while the layer of sound-reflecting material is made of a complex profile consisting of evenly distributed hollow tetrahedra, allowing to reflect sound waves incident in all directions, and the perforated wall has the following perforation parameters: hole diameter - 3 ÷ 7 mm, perforation percentage 10% ÷ 15%, and the shape of the holes can be made in the form of round holes, triangular, square, rectangular or rhomboid profile, while in the case of non-circular holes, the conditional diameter should be considered the maximum diameter of the circle inscribed in the polygon, and as a sound ogloschayuschego mineral wool material applied on the basis of basalt «Rockwool», or mineral wool type «URSA», or basalt wool type P-75, or glass lined steklovoylokom.