RU2019141391A - ACOUSTIC DESIGN OF THE PRODUCTION ROOM - Google Patents

Claims (2)

1. The acoustic structure of the production room, containing the workshop frame, window openings and acoustic barriers in the form of acoustic noise-absorbing panels assembled in a section, window openings contain vacuum sound-insulating glass units, and acoustic noise-absorbing panels consist of a frame, which is made in the form of a parallelepiped formed by the front and rear the walls of the panel, each of which has a U-shape, and on the front wall there is a slotted perforation, the perforation coefficient of which is taken equal to or more than 0.25, and the walls of the panel are fixed to each other by vibration-damping covers, and plates made of 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 lined with glass felt, or a foamed polymer, such as polyethylene or polypropylene, and the sound-absorbing element throughout its entire length the surface is lined with acoustically transparent material, for example, EZ-100 fiberglass or Poviden type polymer, the rocker sound absorber consists of a rigid frame suspended by hooks on cables to the ceiling of an industrial building with a sound-absorbing material located inside the frame wrapped in mesh nylon fabric, and to the frame expanded steel sheet is attached, and the frame is made in the form of a rectangular parallelepiped, characterized in that the floor is made on an elastic foundation and contains a load-bearing floor slab connected to the building wall, a mounting plate made of concrete reinforced with vibration-damping material, which is installed on the base slab of the interfloor floor with cavities through layers of vibration-damping material and waterproofing material with a gap relative to the bearing walls of the production room, which are made with a flanging, tightly fitting to the bearing structures of the walls and the base bearing plate, and strips These base plates are filled with vibration-damping material, for example, a foamed polymer, while the sound-absorbing element of the rocker piece sound absorber is made in the form of perforated walls, between which there is a two-layer combined sound absorber of the resonant type, and the layer adjacent to the upper wall is made sound-absorbing, and the layer adjacent to the lower wall, made of sound-reflecting sound-reflecting material, of a complex profile, consisting of evenly distributed hollow tetrahedrons, between the sound-absorbing layer and the sound-reflecting layer there is a resonant-type element made in the form of a rigid resonant plate with resonant bushings that perform the functions of the throat of Helmholtz resonators Helmholtz is made of a layer of sound-reflecting material of a complex profile, consisting of evenly distributed hollow tetrahedrons, which make it possible to reflect sound waves incident in all directions. 2. The acoustic structure of a production room according to claim 1, characterized in that the sound-absorbing lining of the walls of the room is made in the form of a smooth rigid wall and a perforated wall, between which there is a multilayer sound-absorbing element made in the form of five layers, two of which, adjacent to the walls are sound-absorbing layers of materials of different densities, and the three central layers are combined, while the axial layer is made sound-absorbing, with a plate of sound-reflecting material, and two symmetrically located and adjacent layers are made of sound-reflecting material of a complex profile, consisting of uniformly distributed hollow tetrahedrons , allowing to reflect sound waves incident in all directions, or the sound-absorbing lining of the walls of the room is made with resonant inserts and contains a smooth and perforated surface, between which there is a layer of sound-absorbing material of complex shape, representing is an alternation of solid sections and hollow sections, and the hollow sections are formed by prismatic surfaces having a parallelogram shape in a section parallel to the plane of the drawing, the inner surfaces of which have a toothed structure filled with sound-absorbing material, while in the upper and lower cavities formed by solid sections of a prismatic complex shape and smooth and perforated surfaces, there are "Helmholtz" resonators: in the upper cavity there are spherical resonators with necks oriented towards the hollow sections, and in the lower cavity, between the perforated surface and solid sections of the layers of sound-absorbing material, there are box-shaped "Helmholtz" resonators, the upper surface of which is adjacent to the solid sections of the layer of sound-absorbing material, and the side edges are attached by corners to the perforated surface, while the lower surface of the box-shaped resonance plates facing to the side perforated surface, installed in relation to it with a gap necessary to accommodate resonant inserts that perform the functions of the throats of the "Helmholtz" resonators.