RU2020101788A - LOW-NOISE SEISM-RESISTANT PRODUCTION BUILDING - Google Patents

Claims (1)

Low-noise seismic-resistant industrial building containing a building frame with a base, 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 basic load-bearing floor slabs are equipped at the points of their attachment to the load-bearing walls of the building with a spatial vibration isolation system, consisting of horizontally located vibration isolators that receive vertical static and dynamic loads, as well as vertically arranged vibration isolators that receive horizontal static and dynamic loads, while the floor in the premises is made on an elastic base 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 a 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, for example, a foam polymer, a piece spherical sound absorber contains sound absorbers of active and reactive types, placed on a rigid frame, which is made of two parts, with the lower, reactive, the part is made in the form of a spherical structure with an inner congruent spherical resonance cavity formed by a rigid solid spherical shell equidistant to the outer perforated spherical shell connected to the upper, active part, which is made in the form of a rigid perforated cylindrical shell with a perforated cover and a solid base the cavity of the cylindrical shell is filled with sound-absorbing material, and the connection of the upper and lower parts of the sound absorber is made by means of an elastic damping element that allows damping high-frequency vibrations, while an element is pivotally attached to the perforated cover of the perforated cylindrical shell, with the help of which the frame is attached to the required object, for example, the ceiling of a production room, while the spherical resonant cavity of the reactive part of the frame is rigidly connected by at least one bushing with an axial hole serving as a neck a Helmholtz resonator, with an outer perforated spherical shell, and the space between them is filled with a sound absorber, around the perforated cylindrical shell there is at least one helical sound-absorbing element made in the form of a cylindrical helical spring covering the shell, the helical sound-absorbing element is made in the form of a hollow screw sound-absorbing an element formed by the outer and inner helical surfaces forming a cavity, while the space formed by the outer and inner helical surfaces is filled with sound-absorbing material scrap with a density lower than that of a screw sound-absorbing element, characterized in that the sound-absorbing lining of the walls of the building is made in the form of rigid and perforated walls, between which there is a multilayer sound-absorbing element, which is made in the form of two layers: one of which is adjacent to the rigid wall , is sound-absorbing, and the other, adjacent to the perforated wall, is made with perforations from a sound-reflecting material of a complex profile, consisting of uniformly distributed hollow tetrahedrons, while a material based on aluminum-containing alloys is used as a sound-reflecting 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 within 5 ... 10 MPa, flexural strength within 10 ... 20 MPa, for example, foam aluminum, or soundproof plates based on glass staple fiber type "Shumostop" with a material density equal to 60 ÷ 80 kg / m ³ , or a material based on magnesia binder with reinforcing fiberglass or fiberglass.