RU2014125705A - ACOUSTIC SCREEN OF KOCHETOV - Google Patents

Abstract

The acoustic screen, consisting of a frame and an acoustic canvas, the frame is made in the form of support stands and horizontal profiles on which acoustic panels are mounted, and horizontal profiles are installed and fixed in a width-adjustable vertical groove of the support rack, and acoustic panels can be reflective translucent, and opaque sound-absorbing, and their arrangement in the acoustic screen can be in any combination of vertical and horizontal rows, while the layout of the screen it is made so that the upper horizontal row of acoustic panels is located at an angle within 20 ... 45 °, while the support posts are made respectively in the upper part with an inclination at an angle within 20 ... 45 °, and the sound-absorbing panel contains a frame in the form of a parallelepiped formed front and rear perforated walls with a perforation coefficient equal to or more than 0.25, each of which has a U-shape with side ribs, moreover, the perforation is slotted in the form of rectangles arranged in rows, and adjacent rows are located with an offset, and the number of slots in one row is even and in the other odd, while the ratio of the width of the odd rows b to the width of the even rows b is in the optimal range of values b / b = 0.7 ... 0.9, and the ratio of the distances between the rows h and h, it is equal to h / h = 2.0, moreover, the panel walls are fixed between themselves by vibration damping covers, and rockwool basalt-based mineral wool boards are used as sound-absorbing material of the sound-absorbing element, the sound-absorbing element along its entire surface obl

Claims (1)

The acoustic screen, consisting of a frame and an acoustic canvas, the frame is made in the form of support stands and horizontal profiles on which acoustic panels are mounted, and horizontal profiles are installed and fixed in a width-adjustable vertical groove of the support rack, and acoustic panels can be reflective translucent, and opaque sound-absorbing, and their arrangement in the acoustic screen can be in any combination of vertical and horizontal rows, while the layout of the screen it is made so that the upper horizontal row of acoustic panels is located at an angle within 20 ... 45 °, while the support posts are made respectively in the upper part with an inclination at an angle within 20 ... 45 °, and the sound-absorbing panel contains a frame in the form of a parallelepiped formed front and rear perforated walls with a perforation coefficient equal to or more than 0.25, each of which has a U-shape with side ribs, moreover, the perforation is slotted in the form of rectangles arranged in rows, and adjacent rows are located with an offset, and the number of slots in one row is even and in the other odd, while the ratio of the width of the odd rows b ₁ to the width of the even rows b ₂ is in the optimal range of values b ₁ / b ₂ = 0.7 ... 0, 9, and the ratio of the distances between the rows h ₁ and h ₂ is equal to h ₁ / h ₂ = 2.0, moreover, the panel walls are fixed between themselves by vibration damping covers, and basalt type mineral wool slabs are used as sound-absorbing material of the sound-absorbing element. Rockwool ”, and the sound-absorbing element in its entirety the surface is lined with an acoustically transparent material, for example, fiberglass type EZ-100, the noise-absorbing panel contains a frame in the form of a parallelepiped formed by the front and rear walls of the panel, each of which has a U-shape, with slotted perforation on the front wall, the perforation coefficient of which is assumed to be equal to or more than 0.25, and the panel walls are fixed to each other by vibration damping covers, and mineral wool slabs are used as sound-absorbing material on the sound-absorbing element Rockwool-type basaltic base, with the sound-absorbing element over its entire surface lined with an acoustically transparent material, such as fiberglass type EZ-100, the sound-reflecting panel contains a frame in the form of a polygon, for example, a rectangle formed by a U-shaped ribs made of vibration-damping material, and as a noise-reflecting translucent element, a panel of a continuous sheet of extruded polycarbonate plastic is used, the ratio of the length of the rectangle to its height it in the range from 2 to 3, and the ratio of the thickness of the continuous sheet of extruded polycarbonate plastic to its height is in the optimal range of values: 0.006 ... 0.008, and a panel of cellular sheet of extruded polycarbonate plastic with the ratio of the length of the rectangle to its height is used as a noise-reflecting translucent element being in the optimal ratio of values: 2.0 ... 3.0, and the ratio of the thickness of the cellular sheet of the extruded polycarbonate plastic to its height is in the optimal range le values: 0.016 ... 0.02, characterized in that the sound-absorbing element of the panel, containing smooth and perforated surfaces, between which a multilayer sound-absorbing structure is placed, consists of three layers of sound-absorbing material, while the first layer, which is more rigid, is made solid and profiled and mounted on a smooth surface, and the second layer, softer than the first, is intermittent and located in the focus of the sound-reflecting surfaces of the first layer, and the third layer of the sound-absorbing element is made of foam of a sound-absorbing material, for example, building sealing foam, and is located between the first, more rigid layer, and the perforated surface of the sound-absorbing element, the intermittent sound-absorbing layer located at the focus of the solid profiled layer is made in the form of bodies of revolution, for example in the form of balls, rotation ellipsoids and is attached with using rods parallel to the smooth and perforated surfaces, which are rigidly connected to the smooth surface by means of vertical, perpendicular to them, crepe hedgehog elements, for example, in the form of plates, one end of which is rigidly fixed to a smooth surface, and the other is made in the form of a clamp covering the rod and tightening it with a screw, a continuous profiled layer of the sound-absorbing element is made of more rigid sound-absorbing material, in which the sound reflection coefficient is greater than the sound absorption coefficient, moreover, the profiles are formed by spherical surfaces interconnected in such a way that as a whole each of the profiles forms a solid dome-shaped Ofil, focusing the reflected sound on the same soft intermittent sound-absorbing layer.