An elevated flooring surface assembly including surface tiles disposed on respective support plates, the corners of which in turn rest on support pedestals disposed upon a fixed surface with a predetermined spacing therebetween to provide for increased degrees of support of the surface tiles above the fixed surface.

An elevated flooring surface assembly including surface tiles disposed on respective support plates, the corners of which in turn rest on support pedestals disposed upon a fixed surface with a predetermined spacing therebetween to provide for increased degrees of support of the surface tiles above the fixed surface.

An elevated flooring surface assembly including surface tiles disposed on respective support plates, the corners of which in turn rest on support pedestals disposed upon a fixed surface with a predetermined spacing therebetween to provide for increased degrees of support of the surface tiles above the fixed surface.

An elevated flooring surface assembly including surface tiles disposed on respective support plates, the corners of which in turn rest on support pedestals disposed upon a fixed surface with a predetermined spacing therebetween to provide for increased degrees of support of the surface tiles above the fixed surface.

An elevated flooring surface assembly including surface tiles disposed on respective support plates, the corners of which in turn rest on support pedestals disposed upon a fixed surface with a predetermined spacing therebetween to provide for increased degrees of support of the surface tiles above the fixed surface.

An elevated flooring surface assembly including surface tiles disposed on respective support plates, the corners of which in turn rest on support pedestals disposed upon a fixed surface with a predetermined spacing therebetween to provide for increased degrees of support of the surface tiles above the fixed surface.

Exemplary implementations of a braced flooring tray support system comprise a braced pedestal subsystem and one or more trays. The braced pedestal subsystem may include several pedestals rigidly interconnected by several brace elements. The pedestals may include position-adjustable brace interface elements having vertical fins or an annular flange projecting radially. The tray corners are supported by respective pedestals. The brace elements may have an opposing pair of pedestal interface portions which include a fin-receiving or flange-receiving slot, and a pair of pin alignment apertures intersecting the slot. Brace fasteners configured to be manually installed in and removed from the pedestal interface portions. Each brace fastener may include a pair of fastener pins configured to extend through respective pin alignment apertures and respective attachment apertures when the brace fastener is installed. The fastener pins may include a detent portion configured to releasably secure the installation without requiring any threaded engagement.

An expandable structure has an expansion section with side wall panels that can stack into and be deployed from a wall enclosure central housing. A track can be deployed on the wall enclosure for facilitating the movement of wall panels into and out of the central housing. This innovative configuration not only enables efficient and accurate storage of each wall panel within the central enclosure but also concurrently serves as the foundational support structure for the cabin. After the wall panels are deployed and the structure is fully expanded, the wall panels can be tightened together to provide sound and weather protection.

A paver supporting apparatus is provided and includes a pedestal and a modular grid. The pedestal includes a top plate with a plate extender and a plurality of male lock pins positioned around a circumference of the top plate. The modular grid is positioned and secured on the top plate such that the top plate supports the modular grid in an elevated position and connects with one of the plurality of male lock pins. The modular grid includes a lattice extending generally between perimeter edges of the modular grid and defining a plurality of lattice.

A direct drive haptic floor system includes a plurality of dynamic floor assemblies configured to be spaced apart on a floor surface. Each of the plurality of dynamic floor assemblies comprises a substructure, an actuator secured to the substructure and configured to vibrate, and a plurality of connectors secured to the substructure and configured for elevating the substructure above the floor surface. The dynamic floor assemblies also include a plurality of bushings secured between the plurality of connectors and the substructure, a plurality of adjustable levelers extending from a top portion of the substructure, and a superstructure supported by the plurality of adjustable levelers. A plurality of structural panels are secured on top of the superstructure forming a planar surface, and a plurality of optical floor tiles are removably secured over the plurality of structural panels using magnetic forces.