An adjustable support system has a base bracket member, a clip member, and an outer bracket. The base bracket member has a first end wall that overlays a substrate, a body wall extending outwardly therefrom and a second end wall opposite the first end wall. The clip member has a base bracket member coupling, and a projecting arm. The base bracket member coupling is attached to the first end wall and overlies a portion of the body wall. The projecting arm is spaceable apart from the body wall. The outer bracket has a spanning wall with inner and outer sides. An outer end wall extends from the outer side. The spanning wall is slidably positionable between the body wall of the base bracket member and the at least one clip member, to sandwich the same. Wall assemblies and methods are likewise disclosed.

The present invention provides an adjustment device for a flexible wall surface suitable for droplet impact, which includes a base, a staybolt, an experiment substrate and the wall surface to be tested, wherein the periphery of the wall surface to be tested is fixed to the upper surface of the experiment substrate by an adhesion agent and the inclination angle of the wall surface to be tested is adjusted by adjusting the left two staybolts and right two staybolts on the experiment substrate to different heights; and a plurality of through holes are uniformly formed on the experiment substrate and provided therein with wall surface adjusting bolts used to abut against and apply force to the wall surface to be tested, so as to allow the wall surface to be tested to present a desired curved shape.

An adjustable support system has a base bracket member, a clip member, and an outer bracket. The base bracket member has a first end wall that overlays a substrate, a body wall extending outwardly therefrom and a second end wall opposite the first end wall. The clip member has a base bracket member coupling, and a projecting arm. The base bracket member coupling is attached to the first end wall and overlies a portion of the body wall. The projecting arm is spaceable apart from the body wall. The outer bracket has a spanning wall with inner and outer sides. An outer end wall extends from the outer side. The spanning wall is slidably positionable between the body wall of the base bracket member and the at least one clip member, to sandwich the same. Wall assemblies and methods are likewise disclosed.

Apparatus, systems, and methods for attaching an assembled wall module to a building structure, according to which a framing section, including a plurality of structural members and a first coupler connected to a first structural member of the plurality of structural members, is connected to the building structure. After connecting the framing section to the building structure, relative movement is permitted, via the first coupler, between the framing section and the building structure in a first direction. Before connecting the framing section to the building structure, a plurality of sheeting sections may be connected to the framing section. The framing section may further include a second coupler; in such instances, after connecting the framing section to the building structure, relative movement is permitted, via the second coupler, between the framing section and the building structure in a second direction, which second direction is the same as the first direction.

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.

A panel (assembly) having an inner panel member (sheet) and an outer panel member (sheet), with the member being secured to the member so that the member applies an outward force to the first member.

A mounting clip assembly for attaching a girt to a substrate, includes a bracket and isolator pad. The bracket includes a substrate fastening plate for mounting the bracket to a building substrate, and a girt fastening plate protruding orthogonally outward from a first face of the substrate fastening plate. The girt fastening plate has a top edge, and a bottom edge that extends at an upward angle from the substrate fastening plate, such that the vertical fastening plate is substantially trapezoidal. A girt may be fastened to the mounting clip assembly in a first fastening region. A cavity is formed in the girt fastening plate ata location between the substrate fastening plate and the fastening region to reduce thermal conductance between the fastening region and the substrate fastening plate. The cavity is reinforced by thickening material around a periphery of the cavity. The thermal isolator pad is mountable between a second face of the substrate fastening plate and the substrate.

Devices, systems and methods for attaching girts, rails, cladding, and/or other cladding components to an exterior wall portion (e.g., an insulated exterior wall portion) or other substructure of a building are disclosed herein. In some embodiments, cladding component attachment devices disclosed herein can include a unitary body formed from a workpiece having a rectangular cross-section. Other embodiments of cladding component attachment devices disclosed herein can include a support arm (e.g., a tubular member) that can be adjustably attached to a base.

The present invention provides an adjustment device for a flexible wall surface suitable for droplet impact, which includes a base, a staybolt, an experiment substrate and the wall surface to be tested, wherein the periphery of the wall surface to be tested is fixed to the upper surface of the experiment substrate by an adhesion agent and the inclination angle of the wall surface to be tested is adjusted by adjusting the left two staybolts and right two staybolts on the experiment substrate to different heights; and a plurality of through holes are uniformly formed on the experiment substrate and provided therein with wall surface adjusting bolts used to abut against and apply force to the wall surface to be tested, so as to allow the wall surface to be tested to present a desired curved shape.