The disclosure provides systems and methods for fastening wall and ceiling panels, such as drywall sheets, to framing members. The back side of the panels comprise a first touch fastening component of a touch or hook and loop fastening system configured to removably couple with a second touch fastening component of the fastening system. The second touch fastening component is provided on an outer surface of framing members that are configured to physically support the panels. The second touch fastening component may be coupled to a framing member, or may formed integral by the framing member. Some framing members may comprise a stud/joist, a c-channel, a fixed furring strip or an adjustable furring. The disclosed systems and methods may form walls, ceiling, partitions and the like.

Fire resistant lightweight cladding 10 comprising thin sheet material having an outer layer which is predominantly steel and a thicker inner layer which is predominantly aluminium, the inner layer being a supporting layer and the sheet material being formed into a panel of predetermined outline and used in a fire-resistant wall panel assembly comprising a substrate supporting outer cladding sheets in side by side relation, each cladding sheet being a composite of a relatively thin steel layer and a relatively thick aluminium layer, the sheets described herein have a steel outer layer which is about 4 mm thick and an aluminium layer is about 2 mm thick and panel density from 6 kg/m2 to 9 kg/m2. The panels were tested according to British Standard BS 8414-22015 (amdt 1) as modified by Australian 5113-2016 (amdt 1) and the specimen passes the classification criteria 5.4.4(b) which concerns the temperature differential from outer fireside and inside and 5.4.5(g) which concerns debris.

Framing and panel fastening devices, systems and methods. The fastening devices include an interface portion comprising an inner side and an outer side opposing the inner side, the outer side comprising a first touch fastening component of a touch fastener. The devices further include first and second side wall portions extending in a thickness direction from the inner side of the interface portion. The interface portion extends laterally between the first and second side wall portions to form an inner channel configured to receive and couple to at least a front face portion of a framing member therein. The systems comprise at least one of the fastening devices and at least one building panel with a back face that comprises a second touch fastening component coupled thereto. The first and second touch fastening components configured to removably couple together when operatively engaged.

A wall surface covering system comprising: a wall surface covering for covering an underlying vertical support surface constituted by a wall, said wall surface covering comprising a rigid body; a first component of a hook-and-loop fastener fixable to the rigid body of the wall surface covering; and a second component of the hook-and-loop fastener that is fixable to the underlying vertical surface. The first and second components are cooperable such that,when the first component is fixed to the surface covering and the second component is fixed to the underlying vertical surface, the first and second components can be engaged to cause the wall surface covering to grip the wall. The first and second components are configured to cooperate to provide a fastening having a pull strength and a shear strength that are high enough to hold the surface covering in position on the vertical support surface, and a peel strength that is low enough to allow removal of the surface covering from the underlying surface by peeling the rigid body away from the wall.

A covering module for installation on a subsurface and for attachment to additional modules to form a finished decorative surface is provided. The covering module comprises a decorative covering that is detachably or permanently attached to an anchor sheet. The covering module is configured so as to expose a joining region of the decorative covering and a joining region of the anchor sheet.

A window shutter system is provided primarily comprised of a frame, a window shutter cover, and a window shutter base. The frame is primarily comprised of a vertical member and a horizontal member and are oriented in a “H” like fashion. The frame is also comprised of at least one fastener that attaches to a reciprocating fastener located on the window shutter base. The fasteners on the window shutter base are located within the recessed area and allow the window shutter base to be attached to the frame. The window shutter cover is attached to the window shutter base via at least one fastener located on the inside surface of the window shutter cover. The system provides a way for a user to replace old or damaged shutters with minimal effort.

A wall panel installation method, assembly, system and kit are provided. The wall panel is installed and held to an existing building structure with the combination of a support plate secured to the building wall, fastening elements adhered to the wall panel and corresponding fastening elements adhered to respective support plates. When the wall panel is in position, the fastening elements are brought into contact to engage each other and hold the wall panel in position relative to the building structure/wall.

Embodiments of the present invention provide a connection system with a projection on a first connector and a cooperating cavity on a second connector to provide push-through connection of the connectors in first and second configurations in which the projection extends to first and second depths respectively within the cavity, wherein one or more of the projection or cavity is movable in two dimensions perpendicular to a longitudinal axis of the projection when received in the cavity, wherein the first and second connectors have cooperating locking surfaces arranged to engage each other when the projection is received at the second depth to prevent said movement in two dimensions and wherein the cooperating locking surfaces do not engage each other so as to prevent said movement in two dimensions when the projection is received at the first depth in the receiving cavity.

A modular wall panel including a backer board and a plurality of front boards arranged in a plurality of rows. At least one row of the plurality of rows includes two or more horizontally-adjacent front boards permanently affixed to the backer board. The two or more horizontally-adjacent front boards collectively spanning an entire width of the modular wall panel. At least one row of the plurality of rows includes an enhancement area without a permanently-affixed front board. The enhancement area is horizontally adjacent to a front board that is permanently affixed to the backer board. The modular wall panel further includes a removable enhancement board configured to be reversibly affixed to the backer board to fill the enhancement area.

Embodiments of the present invention provide a connection system with a projection on a first connector and a co-operating cavity on a second connector to provide push-through connection of the connectors in first and second configurations in which the projection extends to first and second depths respectively within the cavity, wherein one or more of the projection or cavity is movable in two dimensions perpendicular to a longitudinal axis of the projection when received in the cavity, wherein the first and second connectors have cooperating locking surfaces arranged to engage each other when the projection is received at the second depth to prevent said movement in two dimensions and wherein the cooperating locking surfaces do not engage each other so as to prevent said movement in two dimensions when the projection is received at the first depth in the receiving cavity.