RU2020106979A - LOW-NOISE SEISM-RESISTANT PRODUCTION BUILDING - Google Patents

Claims (2)

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 the 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 is in premises 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 the layers of the vibration-damping mother ala 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, for example, a foam polymer, the elastic base of the floor is made of a rigid porous vibration-absorbing material, for example, an elastomer, or polyurethane with a degree of porosity in the range of optimal values: 30 ÷ 45%, the elastic base of the floor is made of Vibrosil needle-punched mats based on 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 of the Shumostop type with a material density equal to 60 ÷ 80 kg / m ³ , characterized in that the ceiling is made of acoustic suspended, consisting of a rigid frame suspended from the ceiling of an industrial building with a sound-absorbing material located inside the frame, wrapped with acoustic and a transparent material, and a perforated sheet is attached to the frame, and the frame is made in the form of a rectangular parallelepiped with the dimensions of the sides in the plan B × C, the ratio of which lies in the optimal range of values B: C = 1: 1 ... 2: 1, and also the optimal size ratios must be observed: D - from the suspension point of the frame to any of its sides and E - the thickness of the layer of sound-absorbing material, and the ratio of these dimensions should be in the optimal range of values: E: D = 0.1 ... 0.5, and in luminaires are installed in the frame, while the perforated sheet of the suspended ceiling has the following perforation parameters: perforation diameter - 3 ... 7 mm, perforation percentage 10 ... 15%. 2. Low-noise seismic-resistant industrial building according to claim 1, characterized in that the base of the building frame is made with vibration isolation of a reinforced concrete slab consisting of interconnected reinforced concrete beams at the base of the building, which includes at least four vibration isolators installed between the metal a slab and a reinforced concrete beam located at the base of the building, made in one piece with at least eight strip foundation blocks, which are a kind of "traps", and each of the metal slabs is installed on at least three reinforced concrete pillars-stops, and between sand cushions are installed under each strip foundation blocks and each of the reinforced concrete beams, and strain gauges are fixed under the vibration isolators that control the settlement of vibration isolators, while the sand cushions are installed in metal split cages, while each of the vibration isolators consists of rigidly interconnected rubber slabs: upper and lower, in which through holes are made, located on the surface of the vibration isolator in a checkerboard pattern, and the vibration isolators are square or rectangular in shape, and their lateral faces are made in the form of curved surfaces of the n-th order, ensuring the equal frequency of the vibration isolation system as a whole, in this case, the holes have a cross-sectional shape that ensures the equal frequency of the vibration isolator.