Abstract:
Implementations of the present invention relate to systems, methods, and apparatus for connecting one or more divider walls to structural components of a building. Particularly, at least one implementation includes a flexible connection that can allow at least a portion of the divider wall to move relative to the building's structural components. Consequently, such movement can help the divider wall to withstand seismic events, such as earthquakes.
Abstract:
Implementations of the present invention relate to systems, methods, and apparatus for providing components of a wall module and a modular wall with the ability to shift or move relative to each other. The ability to shift can reduce or prevent damage to the wall modules during movement of support structures (ceilings, floors, permanent or structural walls) that secure the wall modules, which can shift or move relative to each other during seismic events or otherwise.
Abstract:
Implementations of the present invention relate to systems, methods, and apparatus for positioning and/or selectively repositioning one or more objects within an individual space. More specifically, a functional wall module can at least partially define the individual space. Furthermore, the functional wall module can include a single or multiple movable platforms that may support or secure one or more objects. As such, movement of the movable platform(s) may position and/or selectively reposition such objects within the individual space.
Abstract:
Implementations of the present invention provide systems, methods, and apparatus for securing trim to interior and/or exterior walls and wall portions. In particular, at least one implementation includes a system for connecting and securing trim elements without additional adjustments and/or fitting thereof. Moreover, the system for connecting and securing trim elements can improve accuracy and increase the speed of assembly, thereby reducing time and expense associated with installing trim to a building.