The present subject matter relates to systems, devices, and methods for mounting one or more lightweight architectural masonry units to a building support structure. An elongated track includes a web and opposed edge portions that form a pair of slide channels, the elongated track being configured to be mounted to the building support structure. A connecting member includes a base portion configured to retain the connecting member to the channels but is movable within the channels along the track, and a flange portion is configured to connect to a first lightweight architectural masonry unit of the one or more lightweight architectural masonry units. A fixation member includes a first end configured to connect to the elongated track and a second end configured to connect to the lightweight architectural masonry unit, the fixation member being configured to retain the first lightweight architectural masonry unit in place relative to the elongated track.

A method covers at least a portion of a surface of an existing structure with a repair structure. The method comprises: providing a standoff, the standoff elongated in a longitudinal direction and operable from an open configuration to a closed configuration; while the standoff is in the open configuration, mounting the standoff to the existing structure, such that the standoff projects outwardly away from the surface of the existing structure; closing the standoff to the closed configuration, the closing of the standoff forming a standoff connector; and coupling a cladding panel to the standoff by engaging the panel with the standoff connector at a location spaced outwardly apart from the surface of the existing structure by a void.

A method covers at least a portion of a surface of an existing structure with a repair structure. The method comprises: providing a standoff, the standoff elongated in a longitudinal direction and operable from an open configuration to a closed configuration; while the standoff is in the open configuration, mounting the standoff to the existing structure, such that the standoff projects outwardly away from the surface of the existing structure; closing the standoff to the closed configuration, the closing of the standoff forming a standoff connector; and coupling a cladding panel to the standoff by engaging the panel with the standoff connector at a location spaced outwardly apart from the surface of the existing structure by a void.

The present invention provides a solar cell module installation structure that can be installed on a wall surface of a building, and provides a house and a solar cell module.

A support member has a support surface that spreads out substantially in a vertical direction. A locking piece of the support member has: a locking part that faces the support surface at an interval and extends upward; and a connection part that connect the locking part and the support surface. A frame member of the solar cell module has: a holding recess that sandwiches a part of a main body panel of the solar cell module and is in contact with a light receiving surface and a back surface of the main body panel; and a mounting part that is provided on a back surface side of the main body panel, has higher rigidity than the main body panel, has a length longer than or equal to ½ of one side of the main body panel, and extends in the vertical direction. A mounting-side engagement part of the mounting part is a notch that is provided in a lower end part and has a depth extending upward in the vertical direction. The support member is configured to support the solar cell module such that the locking part is inserted in the mounting-side engagement part and such that the solar cell module can be inclined with an inclination angle more than or equal to 10 degrees with respect to the support surface.

The present disclosure relates generally to building surface panel systems, for example, suitable for covering a building surface. The present disclosure relates more particularly to a building surface panel kit for attachment to a support structure. The building surface panel kit includes a clip configured to secure the building surface panel system to the support structure. The kit also includes a first building surface panel having first and second ends, a front face, and a rear face.

A wall cladding system includes a vertical support, a horizontal support, and a panel. The panel has a peripheral edge that abuts a first side surface of the vertical support and a top surface of the horizontal support. In various examples, a portion of the vertical support overlaps a portion of the horizontal support.

A coupling assembly for spacing outer sheeting or cladding away from a bracket member including a spacer. The spacer has a first end and a second end. The first end is in substantial overlying abutment with a bracket member and the second end is in substantial overlying abutment with an outer bracket member. A mineral wool is spaced between the bracket member and the outer bracket member, with the space providing the spacing therebetween. The space may be coupled to each of the outer bracket member and the bracket member with a fastener. An insulation system is also disclosed.

A support assembly for mounting masonry veneer to supporting wall structure has a first shelf angle, a second shelf angle, and a first shelf angle mounting bracket. Each shelf angle mounting bracket has an upwardly extending back that mounts to the supporting wall structure, and a web extending forwardly away from the wall structure. The web has at least a first shelf angle mounting seats formed in a lower region thereof that hangs downwardly of a vertical load shear transfer connection. A brace is mounted to the bracket. The brace underhangs the cantilevered supporting structure, and provides a moment reaction. The brace has a non-intrusive interface with the supporting structure. That interface may be in compression and the brace may act as a strut. The brace may be thermally isolated from the bracket. The brace may fit within the space envelope of a stud wall.

In certain embodiments, a curtain wall system comprises first and second curtain wall member supporting apparatuses and a corner latching apparatus. The first and second supporting apparatuses each have a respective: vertically-disposed member; horizontally-disposed supporting member; and locking member coupled to the vertically-disposed member. The locking member is disposed beneath a lower surface of the horizontally-disposed supporting member. The corner latching apparatus has a corner shape and comprises a first horizontally-disposed latching arm oriented in a first direction and adapted to engage with the locking member of the first supporting apparatus. The corner latching apparatus comprises a second horizontally-disposed latching arm oriented in a second direction and a stabilizing resilient member disposed beneath a lower surface of each of the first and second horizontally-disposed latching arms, at least a portion of the stabilizing resilient member adapted to compress against an upper surface of a curtain wall member.

A mounting apparatus for a plurality of panels to allow non-progressive fixing of the same to a façade. The apparatus employs a base having flanges, forming a channel, that are engaged by a plate held by a fastener positioned within the channel. When operated, the fastener is forced against extension elements that depend from adjacent panels.