RU2016111653A - TUBULAR RECTANGULAR NOISE SILENCER - Google Patents

Claims (2)

1. A tubular rectangular silencer comprising a rectangular housing rigidly connected to an inlet and outlet end pipe, a sound absorber located between the body and the perforated element, and an acoustically transparent material located between the perforated element and the sound absorber, the ratio of the side lengths of the rectangular external section of the silencer body V / N lies in the optimal range of values: V / N = 1.0 ... 1.5; and the ratio of the lengths of the sides of the rectangular internal section of the silencer body B / H lies in the optimal range of values: b / h = 1.0 ... 2.0; and the ratio of the difference in the lengths of the sides of the rectangular external and internal sections of the silencer body to its length lies in the optimal range of values: (B-H) / L = (b-h) / L = 0.2 ... 0.42; and the ratio of the lengths l of the pipes to the length L of the silencer lies in the optimal range of values: l / L = 0.051 ... 0.104; and the ratio of the lengths of the sides of the axial marking of the mounting holes on the flanges of the nozzles lies in the optimal range of values: d / t = 0.5 ... 1.5; and the ratio of the free cross-sectional area F to the length of the silencer L lies in the optimal range of values: F / L = 0.02 ... 0.34, characterized in that the sound absorber is made in the form of a sound-absorbing element of rectangular cross section, the walls of which are made in the form of rigid and perforated walls between which there are two layers: a sound-reflecting layer adjacent to the rigid wall, and a sound-absorbing layer adjacent to the 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 holes can be made in the form of round, triangular, square, rectangular or rhomboid profile, while in the case of non-circular holes, the conditional diameter should be considered the maximum diameter of the circle inscribed in the polygon, and as a sound-absorbing material for Rockwool-type basalt mineral wool or URSA-type mineral wool or P-75 basalt wool or glass wool lined with glass wool or a foamed polymer, such as polyethylene or polypropylene were changed; the surface of the fibrous absorbers is treated with special porous paints that allow air to pass through (for example, Acutex T) or are coated with breathable fabrics or non-woven materials, such as Lutrasil. 2. A tubular rectangular silencer according to claim 1, characterized in that the sound absorber is made in the form of a sound-absorbing element of rectangular cross section, the walls of which are made in the form of rigid and perforated walls, between which are layers of sound-reflecting, as well as sound-absorbing materials of different densities, located in two a layer, and the layers of sound-reflecting material are made of a complex profile consisting of uniformly distributed hollow tetrahedra, allowing reflecting falling in all directions uk waves, and which are respectively located at the rigid and perforated walls, and the layers of sound-absorbing material are made of heat-insulating material that can maintain a given microclimate in the room, as a sound-absorbing material, sheet soundproofing material is used, which is made on the basis of magnesia binder with reinforcing fiberglass or fiberglass, or polyester or porous sound-absorbing ceramic material having a bulk density of 500 ÷ 1000 kg / m ³ and consisting of 100 wt. parts of perlite with a grain diameter of 0.1 ÷ 8.0 mm, 80 ÷ 250 wt. parts of one of the sintering materials selected from the group including fly ash, slag, quartz, lava, stones or clay as the main material, 5 ÷ 30 wt. parts of the inorganic binder, and after sintering the mixture, the perlite particles form interconnected holes between their contacting surfaces so that the inner pores are interconnected.