Systems and methods for a pressure equalized rainscreen (PER) and for mounting the same to a building. The PER system is mounted using a plurality of mounting strips that demarcate wall portions corresponding to panels for covering those wall portions. Each panel is movably engaged with a mounting strip for support and to allow deformation of the panel once fastened to the exterior wall.

Systems and methods for a pressure equalized rainscreen (PER) and for mounting the same to a building. The PER system is mounted using a plurality of mounting strips that demarcate wall portions corresponding to panels for covering those wall portions. Each panel is movably engaged with a mounting strip for support and to allow deformation of the panel once fastened to the exterior wall.

Disclosed herein is a panel system for covering a building wall. The panel system includes at least one panel assembly. Each panel assembly includes a panel having a front panel wall, a side panel wall, and a back mounting flange overhanging the front panel wall. Each panel also includes at least one perimeter extrusion. Each perimeter extrusion includes a panel engaging portion having a panel slot shaped to receive the back mounting flange of the panel, and a connector engaging portion having a connector slot. The panel system also includes at least one connector extrusion for mounting the panel assembly to the building wall. Each connector extrusion includes a connector base mountable to the building wall, and at least one connector flange shaped to fit in the connector slot of the perimeter extrusion.

Disclosed herein is a panel system for covering a building wall. The panel system includes at least one panel assembly. Each panel assembly includes a panel having a front panel wall, a side panel wall, and a back mounting flange overhanging the front panel wall. Each panel also includes at least one perimeter extrusion. Each perimeter extrusion includes a panel engaging portion having a panel slot shaped to receive the back mounting flange of the panel, and a connector engaging portion having a connector slot. The panel system also includes at least one connector extrusion for mounting the panel assembly to the building wall. Each connector extrusion includes a connector base mountable to the building wall, and at least one connector flange shaped to fit in the connector slot of the perimeter extrusion.

Panel elements for lining ceilings and/or walls are provided. Here, a panel element (1), among others, is proposed, having a holding device (4) that is used to fix at least one holding spring (3), which is used to secure the panel element (1) to the ceiling and/or wall, in the transport position of the holding spring.

Aspects of the present disclosure relate to modular wall systems and methods of installing modular wall systems in hygienic environments. In one aspect, gap cover apparatus are disclosed. In one aspect, backplate arrangements are disclosed. In one aspect, non-progressive installation methods are disclosed. The modular wall systems can eliminate protruding ledges while maintaining structural integrity and hygienic properties.

Aspects of the present disclosure relate to modular wall systems and methods of installing modular wall systems in hygienic environments. In one aspect, gap cover apparatus are disclosed. In one aspect, backplate arrangements are disclosed. In one aspect, non-progressive installation methods are disclosed. The modular wall systems can eliminate protruding ledges while maintaining structural integrity and hygienic properties.

A thermal break system for securing wall panels to an existing wall includes a furring member connected between the existing wall and the wall panels, the furring member including at two foot walls adapted to be connected to the existing wall, at least one spacing wall having one end connected to the foot walls and extending in a direction transverse to the at least one foot wall and the existing wall, and a connection wall connected to an opposite end of the at least one spacing wall and extending in a direction transverse to the at least one spacing wall for connection either directly to adjacent wall panels or indirectly to adjacent wall panels through at least one intermediary member; and a thermal insulation cover positioned at least between the at least one foot wall and the existing wall.

A cladding tie for providing a support connection between cladding and a vertical backup wall is disclosed. The tie has a base and a retainer assembly. The base has a shaft extending from a back plate. The retainer assembly has a retainer member, and a cladding connection member. The retainer member has a cladding connection member recess. The cladding connection member is movable relative to the retainer to permit differential movement between the cladding connection member and the retainer when the cladding connection member is connected to the retainer.

A wall panel system for attachment to a building surface includes a plurality of generally vertical supports, and a plurality of generally horizontal mounting rails interconnected with the vertical supports to define a panel mounting gridwork. The horizontal mounting rails have an upper mounting feature and a lower mounting feature, on a side opposite from the building surface. A plurality of panels each have a rear surface, an upper extrusion mounted to a top of the rear surface, and a lower extrusion mounted to a bottom of the rear surface. The upper extrusion mates with a corresponding lower mounting feature on the gridwork, and the lower extrusion mates with a corresponding upper mounting feature on the gridwork. The plurality of panels have a gap about a periphery thereof relative to any adjacent panels, whereby the panels can be non-sequentially mounted to the gridwork.