A wall connection system is disclosed, which includes a horizontal building frame component with a first vertical face that has a first slot. The system further includes a prefabricated wall structure with a plurality of parallel studs and an elongate member connect to each stud. The elongate member has a second vertical face with a second slot and is parallel to the first vertical face. The long axis of the first slot is perpendicular to the long axis of the second slot. A fastener assembly connects the horizontal building frame component to the wall structure, through the slots.

A prefabricated construction element for use in construction of multi-storey buildings. The construction element is a mass timber exterior wall panel, integrating building assemblies such as windows, exterior wall finishes, and connectors to other building components. The construction element comprises: an envelope subpanel; a feature element such as a window or door; an insulation layer; and a cladding layer, wherein the envelope subpanel comprises an upper beam along its top edge and a lower beam along its bottom edge, and a plurality of spacers disposed between the upper beam and the lower beam, defining one or more openings for receiving the feature element; wherein the insulation layer is attached to the envelope subpanel and provided with one or more openings corresponding to the feature element; wherein the cladding layer overlies the insulation layer and is attached thereto.

A prefabricated construction element for use in construction of multi-storey buildings. The construction element is a mass timber exterior wall panel, integrating building assemblies such as windows, exterior wall finishes, and connectors to other building components. The construction element comprises: an envelope subpanel; a feature element such as a window or door; an insulation layer; and a cladding layer, wherein the envelope subpanel comprises an upper beam along its top edge and a lower beam along its bottom edge, and a plurality of spacers disposed between the upper beam and the lower beam, defining one or more openings for receiving the feature element; wherein the insulation layer is attached to the envelope subpanel and provided with one or more openings corresponding to the feature element; wherein the cladding layer overlies the insulation layer and is attached thereto.

In certain embodiments, a system includes a curtain wall member and a first curtain wall member mounting apparatus coupled to a first end of the curtain wall member. The first curtain wall member mounting apparatus includes a mounting plate and an arm having one or more projections. The first curtain wall member mounting apparatus engages with a first curtain wall member supporting channel having a vertically-disposed member and a horizontally-disposed supporting member having a receiving-and-retaining member extending from an end opposite the vertically-disposed member. The receiving-and-retaining member engages with a channel adjacent to one or more projections of the first curtain wall member mounting apparatus. The first curtain wall member mounting apparatus is adapted to be rotated into position such that a connection mechanism at a second end of the curtain wall member engages with a second curtain wall member supporting channel to retain the curtain wall member in position.

In certain embodiments, a system includes a curtain wall member and a first curtain wall member mounting apparatus coupled to a first end of the curtain wall member. The first curtain wall member mounting apparatus includes a mounting plate and an arm having one or more projections. The first curtain wall member mounting apparatus engages with a first curtain wall member supporting channel having a vertically-disposed member and a horizontally-disposed supporting member having a receiving-and-retaining member extending from an end opposite the vertically-disposed member. The receiving-and-retaining member engages with a channel adjacent to one or more projections of the first curtain wall member mounting apparatus. The first curtain wall member mounting apparatus is adapted to be rotated into position such that a connection mechanism at a second end of the curtain wall member engages with a second curtain wall member supporting channel to retain the curtain wall member in position.

An approved dynamic construction is used for effectively thermally insulating and sealing of a safing slot between a floor of a building and an exterior wall construction. The exterior wall construction includes a curtain wall configuration defined by an interior wall glass surface including one or more aluminum framing members, where the vision glass extends to the finished floor level below. The dynamic, thermally insulating and sealing system includes a first element for receiving the insulating elements, and is positioned in the zero spandrel area of a glass curtain wall construction including only vision glass, to maintain thermally insulating and sealing of the safing slot during exposure to fire and heat as well as movement in order to maintain a complete seal extending across the safing slot.

An approved dynamic construction is used for effectively thermally insulating and sealing of a safing slot between a floor of a building and an exterior wall construction. The exterior wall construction includes a curtain wall configuration defined by an interior wall glass surface including one or more aluminum framing members, where the vision glass extends to the finished floor level below. The dynamic, thermally insulating and sealing system includes a first element for receiving the insulating elements, and is positioned in the zero spandrel area of a glass curtain wall construction including only vision glass, to maintain thermally insulating and sealing of the safing slot during exposure to fire and heat as well as movement in order to maintain a complete seal extending across the safing slot.

A unitized curtain wall system includes pre-assembled, pre-glazed aluminum framed curtain wall units. Vertical mullion components and top and bottom horizontal rail components interconnect adjacent curtain wall panels. The curtain wall units are suspended from one or more upper anchors installed on an upper floor slab. The bottom horizontal rail components are engaged with top horizontal rail components of adjacent, lower curtain wall units forming a continuous beam scheme for vertical mullion components and configured to accept lateral loads. The gravity loads of curtain wall units are supported by one or more floor anchors. Organic shaped insulating forms are disposed laterally between top and bottom horizontal rail components of adjacent curtain wall panels. The forms are compressible to permit flexing vertical movement of the curtain wall units while reducing air movement in a horizontal cavity formed between the top and bottom horizontal rail components forming a stack joint.

An anchoring system for anchoring curtainwall units may include an anchor base structure to be attached to the floor slab, a vertical anchor structure and a horizontal anchor structure. The vertical anchor structure may be connected to a lower portion of the upper row curtainwall unit and bear a load of the upper row curtainwall unit on the anchor base structure, thereby fixing a distance between the floor slab and the lower portion of the upper row curtainwall unit while allowing horizontal motion, The horizontal anchor structure may be configured to be connected to an upper portion of the lower row curtainwall unit, and to use the anchor base structure to secure the upper portion of the lower row curtainwall unit against horizontal motion while allowing vertical motion.

An anchoring system for anchoring curtainwall units may include an anchor base structure to be attached to the floor slab, a vertical anchor structure and a horizontal anchor structure. The vertical anchor structure may be connected to a lower portion of the upper row curtainwall unit and bear a load of the upper row curtainwall unit on the anchor base structure, thereby fixing a distance between the floor slab and the lower portion of the upper row curtainwall unit while allowing horizontal motion, The horizontal anchor structure may be configured to be connected to an upper portion of the lower row curtainwall unit, and to use the anchor base structure to secure the upper portion of the lower row curtainwall unit against horizontal motion while allowing vertical motion.