RU2020108701A - ACOUSTICALLY COMFORTABLE ROOM WITH NOISE PROTECTION EQUIPMENT - Google Patents

Claims (1)

An acoustically comfortable room with noise protection equipment, containing a workshop frame, load-bearing walls with fences in the form of a floor and ceiling, which are lined with sound-absorbing structures, window and door openings, as well as piece sound absorbers, characterized in that the sound-absorbing lining of the casing of noisy equipment is made in the form of a sound absorber type containing a frame made in the form of perforated walls, between which layers of sound-absorbing material are placed, the frame is made in the form of two external perforated walls, and an internal, closed resonance plate of a rectangular profile with resonant inserts located on large surfaces of the profile, while the diameters and length resonant inserts are made taking into account the required frequency spectrum, in which it is necessary to reduce the power of sound vibrations, and layers of sound-absorbing material are placed between the resonance plate and the outer perforated walls, while the frame is made symmetrically three-dimensional with respect to the resonance plate, which divides it into two congruent parts, each of which has three layers of sound-absorbing material, and more rigid, the first layers are solid, profiled and fixed, respectively, on the outer perforated walls, the second layers, softer than the first ones, are made discontinuous , and are located with a gap in the focus of the sound-reflecting surfaces of the first layers, the second have the shape of bodies of revolution in the form of cones connected by the bases, and the first layers are made of a material with a sound reflection coefficient greater than its sound absorption coefficient in the form of profiles of conical surfaces focusing the reflected sound on the second layers, the third sound-absorbing layers are made of foamed sound-absorbing material in the form of construction sealing foam and are located in the gaps and voids formed between the first and second layers, while each of the outer perforated walls is rigidly connected to the corresponding second layer by means of vertical fasteners perpendicular to it, made in the form of plates, one end of which is rigidly fixed on the outer perforated wall, and the other end is made in the form of clamps covering the rods, respectively, and tightening them with screws, while the rods are made parallel to the perforated walls, and the middle wall, made in the form of a membrane resonance plate, is rigidly connected to the frame due to construction sealing foam located in the gaps and voids of the frame, while on one of the oppositely located cones of the second layers connected by the bases of the cones, resonant bushings are installed that perform the functions of the throat of the resonators Helmholtz, while the resonance holes are made of different diameters to absorb sound energy in a wide frequency range, while each of the vibration isolators for equipment contains a body and an elastic element made of elastomer interacting with the object, the body is made in the form of a trough base of various shapes with a hole in the lower part, with a platform installed in it with buffer mounting elements, on which elastic spherical elements of high rigidity are located, on top of which there is a cover with a cylindrical wall, to which at least three elastic sectors are attached, located on the inner surface of the cylindrical the walls of the lid, and on the outer side of the lid are fixed limiting elastic stops, and the ratio of the stiffness C ₁ of the spherical elastic elements to the stiffness C _{2 of the} elastic sectors located on the inner surface of the cylindrical wall of the lid is in the optimal range of values: C ₁ / C ₂ = 2 , 5 ... 4.5.