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.

A head for supports of raised floors includes a support body having an upper surface shaped as a cavity partially counter-shaped to receive a spherical cap; a protrusion emerging from the upper surface of the support body and having a threaded side wall; a tilting element having in its upper part a flat surface for supporting building elements and in its lower part a portion partially shaped like a spherical cap configured to be laid on the support body, the tilting element having a through hole configured to receive the protrusion; and a ring nut having an inner surface and an outer lateral surface, the inner surface being threaded to mesh with the threaded portion of the side walls of the protrusion, the outer lateral surface being shaped to abut against the inner surface of the through hole in the tilting element.

A support for raised floors includes a base and a head coupled to the base, the head having a support body and a tilting element laid on the support body, the tilting element having a plate-shaped portion with an upper surface that is partially flat for supporting a building elements, protrusions emerging from a circular crown of the lower surface of the plate-shaped portion to create a profile shaped as a spherical cap ring, the outer edge of the circular crown being near the outer perimeter of the plate-shaped portion, the support body having an upper surface defining a cavity that is counter-shaped to the spherical cap ring at the protrusions emerging from the tilting element.

A head for supports of raised floors includes a support body having an upper surface shaped as a cavity partially counter-shaped to receive a spherical cap; a protrusion emerging from the upper surface of the support body and having a threaded side wall; a tilting element having in its upper part a flat surface for supporting building elements and in its lower part a portion partially shaped like a spherical cap configured to be laid on the support body, the tilting element having a through hole configured to receive the protrusion; and a ring nut having an inner surface and an outer lateral surface, the inner surface being threaded to mesh with the threaded portion of the side walls of the protrusion, the outer lateral surface being shaped to abut against the inner surface of the through hole in the tilting element.

A method for levelling an anchoring system for a dropped ceiling, a floating floor, a pipe or a cable tray, having at least one support bracket for the pipe or a section bar of a support frame of a dropped ceiling, a floating floor or a cable tray, and an adjustment screw to adjust the distance of the section bar from a reference surface, wherein a laser receiver is placed in contact with the section bar or the support bracket, has an optical window to receive a laser beam emitted by a laser level, assumes two height states indicating the receiving position of the laser beam relative to a reference position, and transmits, in a wireless manner, two control signals corresponding to the two height states, and wherein an electric screwdriver receives, in a wireless manner, the control signals and switches the rotation of the adjustment screw between one direction and the opposite direction based on the control signal received.

Presented herein, is a modular tactile flooring system. The tactile flooring system is made from individual modules that each support a tactile transducer. The individual modules may be assembled to form a tactile dance floor. More specifically, the modules may interlock to form a single dance floor surface. Further, the modules may be individually leveled to provide a level surface even when an underlying support surface is uneven. that facilitates assembly of a tactile sound floor and readily permits the tactile sound floor to be assembled in a desired location.

A levelling structure for levelling a structure having supports for secondary support on fixed footings. A coupling mechanism extends between an access point on the structure and the footings. Adjustment of the coupling member from the structure alters the elevation of the structure and supports together towards or away from the footings. By providing the adjustment from the structure itself, the requirement for elevational adjustment beneath the structure is avoided as well as adjustment against the opposition of the load.

Disclosed is a support structure on which a floor panel is seated. The support structure includes a beam element disposed along an axis, a post supporting the beam element, a beam element bracket seated on top of the beam element, a seat pad seated on top of the beam element bracket, and supporting the floor panel, and a seat pad connection member connecting the beam element bracket and the seat pad to each other.

Disclosed is a support structure on which a floor panel is seated. The support structure includes a beam element disposed along an axis, a post supporting the beam element, a beam element bracket seated on top of the beam element, a seat pad seated on top of the beam element bracket, and supporting the floor panel, and a seat pad connection member connecting the beam element bracket and the seat pad to each other.

A flooring substrate system that uses one of three substrate components upon which various types of finish flooring may be attached above a deck structure. The deck structure may be open lumber framed or may be a waterproofed planar surface. Affixation of the flooring system may be by direct connection or by gravitational placement. Height and slope adjustable components interlock through a plunge, twist and locking teeth arrangement to form supporting members beneath the substrate components. A base mounting plate acts as a pivotal point in the system, having recesses and engageable configurations on both its faces for other system components.