RU2020130153A - PRODUCTION BUILDING WITH ACOUSTIC FINISHES - Google Patents

Claims (4)

1. Industrial building with acoustic finish, containing a building frame with a base, load-bearing walls with floor and ceiling fences, which are lined with sound-absorbing structures, window and door openings, as well as piece sound absorbers installed above noisy equipment, base load-bearing floor slabs are equipped with places of their attachment to the load-bearing walls of the building by a system of spatial vibration isolation, consisting of horizontally located vibration isolators that perceive vertical static and dynamic loads, as well as vertically located vibration isolators that perceive horizontal static and dynamic loads, while the floor in the premises is made on an elastic base and contains an installation plate , made of concrete reinforced with vibration damping material, which is installed on the base slab of interfloor overlap with cavities through layers of vibration damping material and waterproofing material with a gap relative to the bearing walls of the production room, moreover, the cavities of the base plate are filled with vibration-damping material, characterized in that the lining of the bearing walls is made in the form of a sound-absorbing structure consisting of solid and perforated walls, between which there is a multi-layer sound-absorbing element, in which between the sound-absorbing layer and the layer of sound-reflecting material of a complex profile adjacent to it, there is a resonant-type element made in the form of a rigid resonant plate with resonant holes that perform the functions of the neck of the Helmholtz resonators, while the functions of the volumes of the Helmholtz resonator are performed by a layer of sound-reflecting material of a complex profile, consisting of uniformly distributed hollow tetrahedra, which allow reflecting incident sound waves in all directions. 2. The production building according to claim 1, characterized in that each of the vibration-damping plugs, which are oppositely located in the cavities of the base plates of the interfloor floor, contains a body made in the form of a flange having a square shape, rigidly connected to the elastomer, and the elements are made on the flange fasteners in the form of holes located in the corners of the flange, and the profile of the side surface of the elastomer is made cylindrical or hyperbolic in the form of a beam of equal resistance, having constant rigidity in the axial and transverse directions, while the ratio of the height of the vibration damping plugs h to the diameter D of the supporting surface of the elastomer is in optimal ratio of values: h/D=0.45…1.55. 3. An industrial building according to claim 1, characterized in that the sound-absorbing lining of the load-bearing walls is made with resonant inserts and contains smooth and perforated surfaces, between which there is a layer of sound-absorbing material of complex shape, which is an alternation of solid sections and hollow sections, moreover, hollow sections 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 jagged structure filled with sound-absorbing material, while in the upper and lower cavities formed by continuous sections of a prismatic complex shape and smooth and perforated surfaces, Helmholtz resonators are located : 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 the solid sections of the layers of sound-absorbing material, there are Helm resonators char" box-shaped, the upper surface of which is adjacent to the continuous sections of the sound-absorbing material layer, and the side faces are attached with corners to the perforated surface, while the lower surface of the box-shaped resonant plates, facing the perforated surface, is installed with respect to it with a gap necessary for placement of resonant inserts that perform the functions of the necks of the Helmholtz resonators. 4. An industrial building according to claim 1, characterized in that each piece sound absorber installed above noisy equipment is made resonant with an active screw element, and contains a rigid frame consisting of an upper active part and a lower, reactive part, while the reactive the part is made in the form of at least three coaxially and axisymmetrically located resonant cylinders, the cavities of which are equipped with holes of different diameters that serve as the necks of the Helmholtz resonator, and the support disks located at the ends of the cylinders rigidly and hermetically connect them to each other, forming a reactive part rigid frame of the sound absorber, while the upper active part is made in the form of a rigid perforated cylindrical shell with a perforated cover and a solid base, and the cavity of the cylindrical shell is filled with sound-absorbing material, and the connection of the upper and lower parts is made by means of an elastic-damping element, allowing to damp high-frequency vibrations, at the same time, an element is hinged to the perforated cover of the perforated cylindrical shell, with the help of which the frame is attached to the object, and at least one hollow helical sound-absorbing element is located around the perforated cylindrical shell, made in the form of a cylindrical helical spring enclosing the shell and resting on a support disk connected to the reactive part of the sound absorber, while the cavity of the helical sound absorbing element is filled with sound absorbing material with a density less than that of the upper active part of the sound absorber.