A metal anchoring fastener fastens millwork onto walls constructed with wall cladding fastened to steel studs. The load typical of a loaded cabinet is borne by the steel stud anchors owing to the mate between the profile of the steel stud anchor and the layers of millwork and wall cladding and steel stud that said anchor penetrates. The pitch of the thread adorning the profile of the steel stud anchor progresses non-linearly along the length of said shaft, the shaft is generally non-linear in profile, and the thread profile is non-uniform along the length of said shaft. The anchor can also support a secondary screw concentrically penetrating the void at the center of the anchor, in order to hang loads from a wall, with or without millwork. Predrilling of the holes can enable installation of these zinc anchors.

A wall panel may have a rigid layer, a first insulation layer made from a two-part rigid urethane pour foam, and a second insulation layer made from a phase change material. The first insulation layer maybe chemically bonded to the rigid layer and may also be bonded to the phase change layer. The first insulation layer may be positioned between the second insulation layer and the rigid layer. The rigid layer may be a finished surface or a veneer layer may be applied to the rigid layer.

A prefabricated demising wall assembly comprising two substrate panels each with an interior and exterior surface, the substrate panels configured to span between a floor and a ceiling of a building unit; a plurality of metal studs connecting the interior surfaces of the two substrate panels, wherein the plurality of metal studs define a space between the substrate panels; a fire sprinkler pipeline between the two substrate panels, wherein at least some of the plurality of metal studs have an aperture accommodating the fire sprinkler pipeline through an interior of the demising wall assembly; and a plurality of hanger elements operably attached to the exterior surfaces of the two substrate panels, wherein the plurality of hanger elements are configured to connect to a plurality of removable finish panels.

A wall tie assembly is provided for use in building construction for connecting a masonry veneer, such as brick or stone, to a building wall while inhibiting compression of building insulation disposed between an internal wall and the veneer. The wall tie assembly includes a washer through which a fastener is disposed and couples to a tie member. The fastener fixes to the structural portion of the wall through the insulation, such that the washer may interface with the exterior surface of the insulation in a manner to form a seal that prevents moisture and air from penetrating through the aperture formed in a weather barrier of the internal wall by the fastener. The tie member attaches between the head of the fastener and the washer and is bent for positioning within mortar of the masonry veneer of the wall.

A masonry veneer wall cladding system may include a first layer of a ceramic based veneer, such as formed steel calcium silicate, and a second layer that is formed of a rigid thermal insulation panel such as an expanded foam. The two layers are bonded together with an air gap between the layers. The panels are mounted to supporting wall structure with wall support mounting fittings, or cleats. The fittings have a first leg and a second leg, and a web connecting the two legs. The first leg has slots for mechanical fasteners. The slots permit the fitting to slide, so a panel can be put in place, and then the fitting, or cleat can slide down to trap the panel in place. The panel has accommodations for the engaging fingers of the cleat. In one embodiment, the air gap can define the accommodation.

A wall panel may have a veneer layer, a middle layer made from magnesium oxide and an insulation layer made from a two-part rigid urethane pour foam. The insulation layer maybe chemically bonded to the middle layer. The veneer layer may include a poured substrate made from polyurethane or plastic. The veneer layer may further include aesthetic elements embedded in and bonded to the poured substrate. The aesthetic elements may include one or more of brick, ceramic tile, porcelain tile, natural stone, engineered stone, wood, ceramic, plastic, or vinyl. A finished surface of the aesthetic elements may extend above a top surface of the poured substrate. The poured substrate may include sand causing the top surface of the poured substrate to have an appearance of mortar.

A wall panel may have a rigid layer, a first insulation layer made from a two-part rigid urethane pour foam, and a second insulation layer made from a phase change material. The first insulation layer maybe chemically bonded to the rigid layer and may also be bonded to the phase change layer. The first insulation layer may be positioned between the second insulation layer and the rigid layer. The rigid layer may be a finished surface or a veneer layer may be applied to the rigid layer.

A cladding system for covering an exterior wall is provided. The cladding system includes a panel for assembling on the exterior wall and an anchor for securing the panel to the exterior wall. The panel has a body with channels formed on a rear side thereof for draining water on an interior surface of the channel which is spaced away from the exterior wall. The anchor comprises tabs for fitting in to the channels and preventing a pull-out and/or a push-in of the panel relative to the exterior wall. The anchor cooperates with the panel to direct water into the drainage channels, and to define a continuous drainage path from top to bottom of the cladding system.

A facade element holder includes first and second profile elements, the first profile element having two sections A and B. Here, section A has a first surface shape X and section B as a second surface shape Y. The second profile element has two sections C and D with a first surface shape X and a second surface shape Y. X and X and Y and Y have substantially the same contour diametrically oppositely in pairs, the spacings from A to B and from C to D being chosen to be substantially equal. The first and second profile elements can thus inter-engage in a form-fitting manner in section A and C and in section B and D. A method for mounting facade elements with such a facade element holder includes providing first and second profile elements and facade elements, and fitting the second profile elements to the rear side of the facade elements and installing the first profile elements horizontally as outer terminating elements of a substructure on a load-bearing building envelope. Individual facade elements are mounted by the second profile element(s) being brought into engagement with the first profile elements such that a form-fitting connection is achieved.

A construction article 12 usable in the construction of a building made of concrete. The article 12 has base and side members 32, 34 in the form of plates extending perpendicularly from each other in an L-shape configuration. Three spaced upstanding elongate members 42 are provided upstanding from the base member 32. An appropriately shaped closure member 14 is provided which closes the open ends of the elongate members 42 such that when concrete is poured thereover the members 42 leave three openings extending through the set concrete to permit fixings to extend therethrough.