RU2018141694A - METHOD OF PROTECTING THE OPERATOR FROM PRODUCTION NOISE - Google Patents

Claims (1)

A way to protect the operator from industrial noise, namely, that the operator’s workplace is equipped with noise reduction means, the operator’s workplace is placed between the acoustic screens, and thereby protect the operator from direct sound that is spreading from vibroactive equipment, and to reduce sound vibration, the workplace the operator is equipped with a two-stage vibration protection system of the operator, made in the form of a floor on an elastic base, to protect against reflected sound waves above the working area, piece sound absorbers are installed located in the upper area of the room and made of a rigid frame suspended by hooks on cables to the ceiling of the industrial building with inside the frame, sound-absorbing material wrapped in a mesh nylon fabric, and expanded metal sheet is attached to the frame, and the frame is made in the form of a rectangular parallelepiped with ribs L × H × B, the ratio of which lies in the optimal interval rank L: H: B = 2: 1: 0.5 or cube with rib size k × L, where min L = 100 mm; k is the proportionality coefficient, ranging from 1 to 10 in increments of 2, and when the frame is suspended, the optimal size ratios are fulfilled: D - from the center of the frame to the point of suspension to the ceiling and C - the distance between the axes of adjacent frames, and the ratio of these sizes should be in the optimal range of values: C: D = 1: 1 ... 4: 1, while the floor structure of the room is in the form of a floating floor, which provides additional noise insulation of floors, and is a layer of soundproofing cushioning material “foamot NPP LE”, located on a floor slab, on top of which a cement-sand screed is made through a metal mesh, and a substrate made of porilex material is laid on the screed, then a laminate with a plinth, and the equipment is installed on a laminate of a floating floor using a polyurethane vibration elastomer - material SYLOMER SR of Getzner from Austria Werkstoffe GmbH, which is a microporis molten polyurethane elastomers with a mixed cellular structure, characterized in that the acoustic device of the acoustic suspended ceiling located in the truss zone is equipped with at least two sound-absorbing sections, each of which contains walls of corrugated perforated material, between which sound-absorbing elements are located, and the walls of the corrugated material are made with slotted perforations made of stainless steel or galvanized sheet 0.7 mm thick with a polymer protective and decorative coating of the Pural type 50 μm thick or Polyester 25 μm thick, or an aluminum sheet 1.0 mm thick and the coating thickness 25 microns, while the sound-absorbing sections are hung on ropes by hooks, and each of the sound-absorbing elements is made in the form of perforated plates, between which layers of sound-reflecting material are symmetrically placed, and layers of sound-absorbing materials of different densities are placed in the center, between the layers of sound-reflecting material, in two layers, and the layers of sound-reflecting material perform a complex profile consisting of uniformly distributed hollow tetrahedrons that allow reflecting sound waves incident in all directions, and which are located respectively on perforated plates, and the perforated plate is made of plastic, nylon, or metal mesh with a small mesh moreover, as a sound-absorbing material, a porous sound-absorbing ceramic material 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 several sintering materials and 10 ÷ 20 mass parts of the binder materials, and material based on aluminum-containing alloys is used as the material of the sound-reflecting layers, followed by filling them with titanium hydride or air with a density in the range of 0.5 ... 0.9 kg / m ³ with the following strength properties: compressive strength within 5 ... 10 MP a, bending strength in the range of 10 ... 20 MPa, for example foam aluminum.