RU2018109905A - SEISMIC RESISTANT LOUD BUILDING - Google Patents

Claims (3)

1. An earthquake-resistant low-noise building containing a vibration-insulated foundation, horizontal and vertical load-bearing structures with a vibration isolation system, internal partitions, the roof of the building, as well as door and window openings with reinforcement, basic load-bearing floor slabs equipped with a spatial vibration isolation system in the places of their attachment to the load-bearing walls of the building consisting of horizontally located vibration isolators, perceiving vertical static and dynamic loads, as well as vertically located vibration isolators of the ores, perceiving 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 plate of the 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 cavity of the base plate is filled with vibration damping material, such as foamed poly In addition, the elastic floor base is made of a rigid porous vibration-absorbing material, for example, elastomer, or polyurethane with a degree of porosity that is in the range of optimal values: 30–45%, while the system of vibration isolation of the basement with the basement is made with simultaneous cutting of its seams of the type antiseismic from neighboring buildings and the surrounding soil, and to protect against vertical vibrations, vibration isolators are installed in the niches of the walls of the basement on the sections of the strip foundation, and each set of sys The topics of vibration isolation consist of a metal plate, four vibration isolators, two sheets of sandpaper to exclude the possibility of sliding of the foundation elements and two supporting reinforced concrete blocks, and to protect the building from horizontal vibrations propagating along the ground, a vibration isolation system is arranged along the vertical faces of the outer walls of the basement the level of the foundation and the ceiling, while around the entire building a retaining wall is arranged, the buttresses of which are connected to the ends of the bearing walls through a vibration reinforcers, which are installed in the buttresses of the buttresses, and the basement of the building is made in the form of a spatial frame structure of monolithic reinforced concrete with overlapping and partitions included in the frame, as well as reinforced jumpers over door and other openings with constant stiffness of the partitions, and the foundation is made in the form of a tape cross structures with a height of about 50 cm, protruding above the base plate-screed, each of the vibration isolators is made in the form of a mesh washer containing a base, elastic with the woven element and the washers interacting with the bushings, the base is made in the form of a plate with mounting holes, the elastic mesh element resting on the base with the lower part and fixed with the lower washer rigidly connected to the base, and the upper part fixed with the upper pressure washer rigidly connected to the central located piston, covered with a gap, coaxially located sleeve, rigidly connected to the base, and between the lower end of the piston and the bottom of the sleeve is an elastomer, for example polyurethane, while crosslinking density reticulated elastic element is in an optimal range of values: 1.2 g / cm ³ ÷ 2,0 g / cm ^3, wherein the elastic material of the wire mesh element - Steel grade EI-708, and its diameter is in the optimal range of values 0 , 09 mm ÷ 0.15 mm, and the density of the mesh structure of the outer layers of the elastic mesh element is 1.5 times higher than the density of the mesh structure of the inner layers of the elastic mesh element, the elastic mesh element of the washer mesh vibration isolator is made of a combined mesh frame, moreover, an elastomer, for example polyurethane, characterized in that the vibration damping insert for the cavities of the base floor slab is made in the form of a cylinder of a rigid vibration damping material, inside of which an elastic core with disks is axisymmetrically and coaxially located along the axis of the elastic core damping rigidly fixed along the entire length of the cylinder cavity disks, while the extreme disks are fixed “flush” with a cylinder of vibration-damping material, the ends of which, in turn, are “flush” »With the lateral surfaces of the base plate of the interfloor overlap, and the intermediate damping disks are arranged uniformly with a step not exceeding the inner diameter of the cylinder, and the elastic core, axisymmetrically and coaxially located inside the cylinder of the vibration damping insert, is made combined and consisting of an elastic part in the form of a rod and damping parts made in the form of an external coaxial shell made of vibration damping material, for example polyurethane, and damping disks rigidly fixed along the entire length of the pack of another core, made combined and consisting of an elastic part in the form of disks of a solid vibration-damping material, for example plastic compound like “Agate”, “Anti-vibration”, “Shvim”, made in the form of a disk perforated frame of an elastic material filled with mesh a damping element located between disks made of solid vibration-damping material and made in the form of a disk made of soft vibration-damping material, for example, sponge rubber, non-woven vibrod the damping material, polyurethane, and the density of the mesh structure of the mesh damping element of the disk perforated frame of the hard damping disks filled with the mesh damping element is in the optimal range of values: 1.2 g / cm ³ ÷ 2.0 g / cm ³ , and the material of the elastic wire mesh elements - steel grade EI-708, and its diameter is in the optimal range of values of 0.09 mm ÷ 0.15 mm, while the mesh damping element is filled with an elastomer, for example polyurethane. 2. An earthquake-resistant low-noise building according to claim 1, characterized in that a piece sound absorber is attached to the horizontal load-bearing structures of the building, comprising a rigid perforated frame, within which a sound-absorbing material is placed, the frame is made of the lower part of the conical shape with a cover, and the upper part of the cylindrical shape, which is attached to the cover of the lower part of the perforated frame by means of a vibration damping pad, which allows damping high-frequency vibrations, while to the upper part of the cylindrical about the perforated frame, the element is pivotally fixed by means of which the frame is attached to the desired object, for example, the ceiling of the production room, and the cavities of the lower and upper parts of the perforated frame are filled with sound-absorbing materials of different densities, and at least one is located around the upper part of the cylindrical shape of the perforated frame a screw sound-absorbing element of a piece absorber, made in the form of a cylindrical helical spring from a dense non-combustible sound-absorbing On the material, the screw sound-absorbing element of the piece absorber is made in the form of a hollow screw sound-absorbing element formed by the external and internal screw surfaces forming a cavity, while the space formed by the external and internal screw surfaces is filled with sound-absorbing material, the cavity of the screw sound-absorbing element formed by its external and internal screw surfaces, filled with sound-absorbing material from mineral wool based on a basalt rockwool type, or mineral wool of the URSA type, or basalt wool of the P-75 type, or glass wool with a glass-fiber lining, the sound-absorbing material over its entire surface lined with an acoustically transparent material, for example, EZ-100 fiberglass or a “visible” polymer, and the outer and internal helical surface of the screw element are made of sound-absorbing material based alloys alyuminesoderzhaschih followed by filling them with the titanium hydride or the density of air within 0.5 ... 0.9 kg / m ³ with the following strength its properties: compressive strength in the range of 5 ... 10 MPa, bending strength in the range of 10 ... 20 MPa, for example foam aluminum, and the outer screw surface of the screw sound-absorbing element is perforated, and a porous sound-absorbing ceramic material is used as the sound-absorbing material of the lower part of the conical frame having a bulk density of 500 ÷ 1000 kg / m ³ and consisting of 100 mass parts of perlite with a particle diameter of 0.5 ÷ 2.0 mm, 100 ÷ 200 mass parts of one or more sintering materials and 10 ÷ 20 mass parts of binder materials, while the gasket is made of plastic compound such as "Agate" or mastic VD-17. 3. An earthquake-resistant low-noise building according to claim 1, characterized in that the sound-absorbing element of the wall cladding of the building is made with a sound-reflecting layer in the form of a rigid and perforated wall, between which two layers are located: a sound-reflecting layer adjacent to the rigid wall and a sound-absorbing layer adjacent to perforated wall, while the layer of sound-reflecting material is made of a complex profile, consisting of evenly distributed hollow tetrahedra, allowing to reflect sound waves incident in all directions, and The perforated wall has the following perforation parameters: hole diameter - 3 ÷ 7 mm, perforation percentage 10% ÷ 15%, and the shape of the hole can be made in the form of holes of a round, triangular, square, rectangular or diamond-shaped profile, while in the case of non-circular holes as a conditional diameter, the maximum diameter of the circle inscribed in the polygon should be considered, and rockwool type mineral wool or URSA type mineral wool is used as sound-absorbing material, or basalt cotton wool of type P-75, or glass wool with glass fiber lining, or foamed polymer, such as polyethylene or polypropylene, while the surface of the fibrous absorbers is treated with special porous paints that allow air to pass through (for example, Acutex T) or coated with breathable fabrics or non-woven materials, for example, “Lutrasilom”, or a porous sound-absorbing material, for example, foam aluminum or cermets or stone shell with a degree of porosity in the optimal range values: 30 ÷ 45%, or metal foam, or a material in the form of pressed crumbs from solid vibration damping materials, for example elastomer, polyurethane, or plastic compound such as Agate, Anti-Vibrate, Shvim, and the size of the fractions of the crumb lies in the optimal range of values : 0.3 ... 2.5 mm, and also porous mineral piece materials, for example pumice, vermiculite, kaolin, slags with cement or another binder, or synthetic fibers can be used, while the surface of the fibrous absorbers is treated with special porous air-borne suites, such as Acutex T, or coated with breathable fabrics or non-woven materials, such as Lutrasil, and material based on aluminum-containing alloys was used as sound-reflecting material, 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 in the range of 5 ... 10 MPa, the flexural strength in the range of 10 ... 20 MPa, such as foamed aluminum or sound insulating plate on the base glass staple in window type "Shumostop" with material density of 60 ÷ 80 kg / m ^3, wherein the perforated wall is made of structural materials with coated on their surfaces with one or both sides a layer of soft vibration damping material, such as mastic HP-17, or the material “Gerlen-D” type, the ratio between the thicknesses of the material and the vibration damping coating lies in the optimal range of values: 1 / (2.5 ... 3.5), either stainless steel or a galvanized sheet 0.7 mm thick with a polymer protective -decorative coating type "Pural" thickness oh 50 microns, or Polyester 25 microns thick, or 1.0 mm thick aluminum sheet and 25 microns coating thickness, or from hard, decorative vibration damping materials, such as plastic compound like Agate, Anti-Vibrate, Shvim.