A floor tile is disclosed that includes a metal frame, a backing plate, and a plurality of tiles assembled to the metal frame and the backing plate. The metal frame defines a plurality of openings, and has a thickness T. The openings are separated by a plurality of connected strips that are coated with an anti-slip coating. The backing plate is attached to a bottom side of the metal frame. The plurality of tiles are each assembled into one of the plurality of openings with the backing plate supporting the tiles. The tiles have a height H that is less than T and have a top surface that is recessed below the anti-slip coating on the connected strips.

A method is disclosed for making a floor tile having ceramic tiles formed in situ in openings or recesses in the plate. A metal frame is embossed to form recesses in one embodiment. In another embodiment, openings are punched in the plate and a backing plate is attached to a bottom surface of the plate. A ceramic composition is poured into the plurality of openings up to a level that is below the upper surface of the metal frame and is cured to form a ceramic tile in situ in each of the plurality of openings. Surface features may be provided in the recesses or openings such as projections with a head portion that are embedded in the ceramic composition after curing.

A covering element for raised floors, comprising a decorative component made of ceramic material, said decorative component having a top side, a bottom side opposite the top side and a thickness greater than 12 mm, wherein the covering element comprises a reinforcing component arranged underneath the bottom surface of the decorative component.

A fire-rated flooring panel for use in forming a suspended floor, comprising: a bottom metal sheet layer; an upper re-enforced concrete layer overlaying the bottom layer; and a structural steel frame enclosing circumferential walls of the upper and lower layers.

One illustrative embodiment of a tile & support structure may be configured to secure the position of a tile in a generally vertical configuration, such as the riser of a step, as a border around a portion of a deck, a building and/or wall façade, ventilated façade, interior or exterior wall covering, or other generally vertical surface. The support structure may be formed with a spine having at least one rail extending outward from a distal end thereof. The spine and rail(s) may be configured to secure one or more tiles, which tiles may be formed with a groove on at least one edge thereof, and wherein one or more rails may be positioned within the groove.

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.

A floor tile is disclosed that includes a metal framework that supports a plurality of tiles. The metal framework defines recesses having a depth D that are separated by ridges. The ridges are coated with an anti-slip coating. The tiles are each assembled into one of the recesses. The tiles have a height H that is less than D and a top surface that is recessed below the anti-slip coating on the ridges. Methods for making and installing the floor tile are disclosed that includes the steps of applying an anti-slip coating to an upper surface of a metal framework. Assembling a plurality of tiles into the recesses. An adhesive is applied between the tiles and the recesses to secure the tiles with the top surface of the tiles being recessed relative to the ridges. The floor tile is installed on a floor with an adhesive.

An anchor for connecting a concrete layer of a floor to a cellulosic layer of the floor, the cellulosic layer comprising a plurality of cellulosic members joined together in a side-by-side arrangement, the anchor including a first portion to extend between two adjacent cellulosic members of the cellulosic layer into the concrete layer of the floor. The first portion includes attachment structure to attach the first portion to one of the two adjacent cellulosic members of the cellulosic layer to attach the anchor to the cellulosic layer. An upper edge margin of the first portion is disposed within the concrete layer when the first portion is attached to the cellulosic layer. A second portion extends from the upper edge margin in a first direction that is transverse to the first portion. The second portion is spaced apart from the cellulosic layer and embedded within the concrete layer of the floor to attach the anchor to the concrete layer.

A floor panel (2) of a floor covering (1), which forms a walkable surface (1.1) of the floor covering (1) by laterally placing several floor panels (2) on top of each other, has the dimensions length and width, and a magnetic layer (4) is arranged on an underside (2.2) of the floor panel (2). The magnetic layer (4) extends over at least 90% of each of the two dimensions length and width of the underside (2.2) of the floor panel (2) at least partially and covers at least a total area of 25% of the underside (2.2), preferably at least 50%, and particularly preferably at least 85%.

A floor covering (1) is formed by a floor panel (2) and a magnetic support (5).