RU2019141437A - INDUSTRIAL ROOM WITH LOW NOISE LEVEL - Google Patents

Claims (6)

1. A production room with a low noise level, containing a workshop frame, load-bearing walls with fences in the form of a floor and a ceiling, which are lined with sound-absorbing structures, window and door openings, as well as piece sound absorbers containing a frame in which sound-absorbing material is located, and installed above noisy equipment, the floor is made on an elastic foundation and contains 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, and the cavities of the base plate are filled with vibration damping material, the elastic base of the floor is made of a rigid porous vibration-absorbing material: elastomer, or polyurethane with a degree of porosity in the range of optimal values: 30 ÷ 45%, or the elastic base of the floor is made of needle punches clear mats "Vibrosil" on the basis of silica or aluminoborosilicate fiber, or the elastic base of the floor is made of solid vibration-damping materials, plastic compound, or the elastic base of the floor is made of soundproof plates based on glass staple fiber t "Shumostop" with a material density equal to 60 ÷ 80 kg / m ³ , characterized in that sound-absorbing plates in the form of a triangular prism without one edge are installed on the ceiling, each of which contains sound-absorbing blocks, pulled together by side covers by means of a string with an element for regulating its tension, which is at the same time a bracket for fixing the plate either to the ceiling, either to the wall of the room, and as a sound-absorbing material of sound-absorbing blocks are used slabs of mineral wool on a basalt basis: "Rockwool", or mineral wool "URSA", or basalt wool P-75, or glass wool lined with glass wool, or foamed polymer, polyethylene or polypropylene, and sound absorbing the entire surface is lined with an acoustically transparent material, E3-100 fiberglass or Poviden polymer, or sound-absorbing slab blocks are made of sound-absorbing material based on aluminum-containing alloys, followed by filling them with titanium hydride or air with a density of 0.5 ... 0 , 9 kg / m ³ with the following strength properties: compressive strength within 5 ... 10 MPa, bending strength within 10 ... 20 MPa. 2. A production facility with a low noise level according to claim 1, characterized in that in the cavity of the base slab of the interfloor floor there is a vibration-damping insert filled with vibration-damping material, which consists of a pipe made of an elastic material, to the ends of which support flanges are rigidly attached with a gap into the cavity of the base slab of the floor slab, so that the axes of the cavity of the slab and the pipe of the insert are parallel or coincide, and the cavity of the pipe of the vibration damping insert is filled with vibration damping material: sand, crushed stone, gravel, foam polymer, polyethylene or polypropylene. 3. An industrial room with a low noise level according to claim 1, characterized in that in the cavities of the base plates of the interfloor overlap, vibration-damping plugs are located oppositely, made in the form of cylindrical shells, rigidly fixed on flanges with holes for attaching them to the ends of the plates, while The cavities of the cylindrical shells and the cavities of the base plates free from plugs are filled with vibration damping material. 4. A production room with a low noise level according to claim 1, characterized in that the sound-absorbing structure of the bearing 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, which is an alternation of solid sections and hollow sections, and the hollow sections are formed by prismatic surfaces having in a section parallel to the plane of the drawing the shape of a parallelogram, the inner surfaces of which have a toothed structure, with the tops of the teeth facing inward of the prismatic surfaces, and the edges of the prismatic surfaces are fixed, respectively, on smooth and perforated walls, and the cavities areas formed by prismatic surfaces are filled with a sound absorber, and between a smooth surface and solid areas of a layer of sound-absorbing material of complex shape, as well as between a perforated surface and a continuous shny sections, there are resonance plates with resonant inserts that perform the functions of the throats of the "Helmholtz" resonators. 5. A production room with a low noise level according to claim 4, characterized in that inside the hollow sections, the inner surfaces of which have a toothed structure, there are additional resonant elements made in the form of spherical shells, the inner surface of which is connected by resonant inserts with cavities, located between the perforated surface and the solid sections of the sound-absorbing element. 6. A production room with a low noise level according to claim 4, characterized in that the sound-absorbing structure of the bearing walls of the room is made in the form of two identical structures of sound-absorbing elements, located symmetrically and opposed to the axial central layer in which Helmholtz resonators are located in the form of spherical shells with resonant bushings, while the location of the resonance bushings in each Helmholtz resonator relative to the axis of the central layer is different: both along and perpendicular to its axis, while rigid perforated walls are made of structural materials, with layers applied on their surfaces, on one or two sides, soft vibration damping material: mastic VD-17, or material "Guerlain-D", while the ratio between the thicknesses of the material and vibration damping coating lies in the optimal range of values: 1 / (2.5 ... 3.5), with each of the identical designs sound-absorbing elements contains sound-reflecting layers with a perforation made of a sound-reflecting material of a complex profile, consisting of uniformly distributed hollow tetrahedrons, allowing to reflect sound waves incident in all directions, while perforation on sound-reflecting layers is made by analogy with throttling holes, which are the throat of Helmholtz resonators, the capacity of which is determined by the volume of the sound-reflecting layer, and the sound-reflecting layers are located between soft, less rigid sound-absorbing layers and sound-absorbing layers of increased rigidity, between which there is an axial central layer of a sound-absorbing element with Helmholtz resonators.