Abstract: A noise-protection screen (1) provided with a number of sound-damping elements (2) and over the length of the noise-protection screen, spaced at a distance from each other with girders for the support of the elements, and a sound-damping element for a noise-protection screen. The noise-protection screen includes an air cavity (8) delimited at one side by the sound-damping elements (2) and at the other side by panel-like elements (9). At the side of the sound-damping elements the air cavity is preferably in contact with the surroundings by means of air openings, preferably in the form of air gaps running longitudinally along the noise-protection screen.

Abstract: An acoustical barrier wall system for use as an external wall acoustical attenuator for sound sources, is disclosed. The wall system comprises a plurality of acoustical barrier panels adapted for vertically stacked co-operating engagement. There are first and second attachment members each having a first end anchored within the main body portion of the acoustical barrier panels and an opposite threaded second end extending outwardly beyond the main body portion. There are first and second upright bracing members, each having a corresponding plurality of attachment member receiving means spaced therealong, the attachment member receiving means being adapted to receive the respective first and second attachment members therein. Connecting means in the form of co-operating nuts adapted to connect the attachment members and the attachment member receiving means in secured relation to one another.

Abstract: The invention is a new acoustic panel and sound barrier constructed therefrom in which the panel is composed of a layer of fine aggregate concrete and a layer of chemically mineralized and neutralized fibres blended with portland cement. The panel may have a tongue and groove to form airtight joints. The barrier is effective, fire proof, weather resistant, corrosion resistant and not adversely affected by chemical herbicides.