RU2010134722A

RU2010134722A - SOUND-ABSORBING DESIGN OF THE INDUSTRIAL ROOM

Info

Publication number: RU2010134722A
Application number: RU2010134722/06A
Authority: RU
Inventors: Олег Савельевич Кочетов (RU); Олег Савельевич Кочетов; Мария Олеговна Стареева (RU); Мария Олеговна Стареева
Original assignee: Олег Савельевич Кочетов (RU); Олег Савельевич Кочетов; Мария Олеговна Стареева (RU); Мария Олеговна Стареева
Priority date: 2010-08-20
Filing date: 2010-08-20
Publication date: 2012-02-27
Also published as: RU2463412C2

Abstract

1. Звукопоглощающая конструкция производственного помещения, содержащая каркас цеха, оконные, дверные проемы, проемы для размещения светильников, акустические ограждения и элементы звукопоглотителя, отличающаяся тем, что акустические ограждения выполнены в виде гладкой и перфорированной стенок, между которыми размещен звукопоглощающий материал, расположенный в два слоя, один из которых, более жесткий, выполнен сплошным и профилированным, а другой, мягкий, выполнен прерывистым и расположен в фокусе звукоотражающих поверхностей первого слоя, причем сплошной профилированный слой звукопоглощающего материала выполнен из материала, у которого коэффициент отражения звука больше, чем коэффициент звукопоглощения, причем профили образованы сферическими поверхностями, соединенными между собой таким образом, что в целом каждый из профилей образует цельный куполообразный профиль, фокусирующий отраженный звук на один и тот же мягкий звукопоглотитель, который расположен в фокусе сплошного профилированного слоя, выполненного в форме тел вращения, например в виде шаров, эллипсоидов вращения, и крепится с помощью стержней, параллельных перфорированной стенке и жестко связанных с гладкой стенкой посредством вертикальных связей. ! 2. Звукопоглощающая конструкция производственного помещения по п.1, отличающаяся тем, что штучный звукопоглотитель состоит из жесткого каркаса, который содержит крышки с кольцевыми буртиками для крепления цилиндрической втулки, при этом крышки соединены центральным стержнем с крючками на обеих концах, а цилиндрическая втулка состоит из двух перфорированных обечаек - внешней и внутрен� 1. The sound-absorbing structure of the production room, containing the workshop frame, window, doorways, openings for luminaires, acoustic fencing and sound absorbing elements, characterized in that the acoustic fencing is made in the form of smooth and perforated walls, between which is placed a sound-absorbing material located in two layer, one of which is more rigid, is made continuous and profiled, and the other, soft, is intermittent and located in the focus of the sound-reflecting surfaces of the first layer, and the continuous profiled layer of sound-absorbing material is made of a material whose sound reflection coefficient is greater than the sound absorption coefficient, and the profiles are formed by spherical surfaces interconnected in such a way that each of the profiles forms a solid dome-shaped profile focusing the reflected sound on one and the same soft sound absorber, which is located in the focus of a continuous profiled layer made in the form of bodies of revolution, for example in the form of balls, an ellipse rotation rows and secured with rods parallel to the perforated wall and rigidly connected with a smooth wall by means of vertical connections. ! 2. The sound-absorbing structure of the production room according to claim 1, characterized in that the piece sound absorber consists of a rigid frame, which contains covers with annular flanges for attaching a cylindrical sleeve, while the covers are connected by a central rod with hooks at both ends, and the cylindrical sleeve consists of two perforated shells - external and internal�

Claims

1. The sound-absorbing structure of the production room, containing the workshop frame, window, doorways, openings for luminaires, acoustic fencing and sound absorbing elements, characterized in that the acoustic fencing is made in the form of smooth and perforated walls, between which is placed a sound-absorbing material located in two layer, one of which is more rigid, is made continuous and profiled, and the other, soft, is intermittent and located in the focus of the sound-reflecting surfaces of the first layer, and the continuous profiled layer of sound-absorbing material is made of a material whose sound reflection coefficient is greater than the sound absorption coefficient, and the profiles are formed by spherical surfaces interconnected in such a way that each of the profiles forms a solid dome-shaped profile focusing the reflected sound on one and the same soft sound absorber, which is located in the focus of a continuous profiled layer made in the form of bodies of revolution, for example in the form of balls, an ellipse rotation rows and secured with rods parallel to the perforated wall and rigidly connected with a smooth wall by means of vertical connections.

2. The sound-absorbing structure of the production room according to claim 1, characterized in that the piece sound absorber consists of a rigid frame, which contains covers with annular flanges for attaching a cylindrical sleeve, while the covers are connected by a central rod with hooks at both ends, and the cylindrical sleeve consists of two perforated shells - external and internal, the space between which is filled with a sound absorber, and an acoustic transparent layer is located outside the perforated cylindrical sleeve a lacquer made of nylon mesh or fiberglass, while the sound-absorbing material located in the inner cavity of the sound absorber is made of a spinning roll, one end of which is rigidly fixed to the central rod, and the free end abuts against the inner shell with the formation in cross section perpendicular to the rod closed forms in the form of a spiral of Archimedes with increasing air gaps from the center to the periphery (not shown in the drawing), while it has a higher porosity compared to o a sound absorber located inside the shells, and the covers have conical shaped fairings on the outer surfaces.

3. The sound-absorbing structure of the production room according to claim 1, characterized in that the continuous profiled layer of sound-absorbing material is made of a material whose sound reflection coefficient is greater than the sound absorption coefficient, the profiles being formed by rotation bodies that are interconnected by planes with resonant holes and the intermittent sound absorber is fixed with rods parallel to the perforated wall and rigidly connected to the smooth wall by means of vertical ide, continuous profile sound absorbing layer formed of several spherical surfaces, focusing the reflected sound at the same soft absorber.

4. The sound-absorbing design of the production room according to claim 1, characterized in that the ratio of the ratio (H / W) of the parameters of the production room to the thickness H _{1 of the} acoustic fence lies in the optimal range of values 0.0007 ... 0.006, and the ratio of the ratio (H / W) the height of the room to its width to the ratio (H ₂ / R) of the thickness of the sound absorber element to its suspension height lies in the optimal range of 0.27 ... 0.68.