A sound isolation assembly comprising: a center ferrule; a top grommet isolator; a bottom grommet isolator; a spring; and a furring channel engagement portion. The sound isolation assembly is configured to engage with a structure and a furring channel, which itself is connected to a ceiling panel, such that the noise passing from one floor to the other is lessened as compared to a control system that does not use the sound isolation assembly. The spring may be steel and the grommet isolators may be rubber or the like, and the combination of the steel spring and grommet isolators reduces noise.

A method of reducing sound transmission in a building constructed using horizontal cross laminated timber (CLT) panels to provide a floor of the building and a floor assembly are described. In an implementation, the method includes: attaching a plurality of energy transmission control mounts to a ceiling side of one or more of the cross-laminated timber panels using fasteners; attaching a plurality of furring channels to the energy transmission control mounts; and attaching a cross laminated timber sheet to the plurality of furring channels to form an exposed ceiling layer.

A method of reducing sound transmission in a building constructed using horizontal cross laminated timber (CLT) panels to provide a floor of the building and a floor assembly are described. In an implementation, the method includes: attaching a plurality of energy transmission control mounts to a ceiling side of one or more of the cross-laminated timber panels using fasteners; attaching a plurality of furring channels to the energy transmission control mounts; and attaching a cross laminated timber sheet to the plurality of furring channels to form an exposed ceiling layer.

An isolating hanger and method of making is disclosed for mounting a ceiling from an upper support. The isolating hanger comprises a one piece bendable wire having a spring shape defined between a first and a second wire end. The spring shaped is tempered for transforming said spring shape into a resilient spring. The remaining bendable wire ends affix the upper support to the ceiling for isolating vibration between the ceiling and the upper support.

A system for supporting a non-structural building component beneath a soffit of a building. The system has a plurality of suspension assemblies that each have a first elongate non-rigid member, and at least one second elongate non-rigid member. The first elongate non-rigid member is secured at an upper end to a structural portion of the building at a first location, and at a lower end to one of: the non-structural building component, or a support member to which the non-structural building component is secured. The second elongate non-rigid member that is secured at a lower end to one of: the non-structural building component, or the support member to which the non-structural building component is secured, and at an upper end to a structural portion of the building at a second location. The first elongate non-rigid member is oriented substantially vertically. The second location is horizontally spaced from the first location, such that the second elongate non-rigid member is inclined to vertical. When the building is in a stable condition, the tensile force in the first elongate non-rigid member is greater than the vertical component of the tensile force in the second elongate non-rigid member.

An interior building structure is provided and comprises a plurality of side walls, each comprising an exterior surface, an interior surface, a bottom end, and a top end opposite the bottom end, the bottom end being connected to a lower base building slab of the base building and the top end being free. A lateral support structure is further provided that extends from a first wall to a second wall of the plurality of side walls. Airspace portions are formed from gaps between the side walls and the base building structure, decoupling the walls of the interior building structure from the base building structure.

A clip insulation for a furring channel clip, the clip insulation having a substantially planar bed portion having two opposed ends, the bed portion adapted to at least cover a portion of an outer surface of the clip, a plurality of projections extending from the bed portion, and two opposed skirt portions, each skirt portion extending from an end of the bed portion, each skirt portion adapted to attach to an end of the clip.

A method of reducing sound transmission in a building constructed using horizontal cross laminated timber (CLT) panels to provide a floor of the building and a floor assembly are described. In an implementation, the method includes: attaching a plurality of energy transmission control mounts to a ceiling side of one or more of the cross-laminated timber panels using fasteners; attaching a plurality of furring channels to the energy transmission control mounts; and attaching a cross laminated timber sheet to the plurality of furring channels to form an exposed ceiling layer.

A bracket assembly for connecting the head track (282) of a partition wall (280) to an overhead structural component (298) of the building has a shaft (102) connected at right angles to a base plate (106), which in turn is connectable to the head track (282) so that the shaft extends substantially vertically upwards. A pair of upwardly extending wings (118) and an apertured intermediate portion (116) allowing the bracket to be slidingly disposed about the shaft. The wings (118) are connectable to arm portions (288), which in turn are connectable to linking flanges (292), connectable to the overhead structure 298. Springs (130, 132) bias the bracket towards a neutral position. The bracket (110) is retained on the shaft by an upper stop (108) and the base plate 106. Apertured stabilising means (122,124) disposed about the bracket (110) form a collar that guides and stabilises the bracket (110) as it slides relative to the shaft (102) during seismic activities.

An absorber tile element includes compressed mineral fiber material and has a first major surface, an opposing second major surface and at least one side edge surface, and an anchor element associated with one of the first and second major surface or one of the at least one side edge surfaces. The anchor element includes a head portion and a threaded portion, the head portion defining an open cavity facing a top surface. An engagement member is arranged in the cavity, and arranged to engage with a hook element. The threaded portion is threaded into the absorber tile element such that the head portion becomes substantially recessed in the absorber tile element. A corresponding tile system can includes the absorber tile element.