A deck ledger board spacer system that includes a solid disc body having a front side and a rear side, a center hole, and a plurality of circumferential through holes surrounding the center hole. The center hole includes at least one radially-extending void that serves as a female element for a complementary keyed bushing. Each of the front and rear sides have a plurality of wells recessed from the disc body surface, the wells configured to receive a volume of flowable adhesive sealant material during spacer installation. One or more swappable keyed bushings are sized for insertion in the center hole, each of the keyed bushings having a male element complementary to the radially-extending void and having a bushing through hole with a diameter different from other keyed bushings in a plurality of keyed bushings.

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.

Disclosed is a section bar and a support system for raised floors including the section bar. In particular, the section bar is particularly shaped and the presence of this section bar makes the support system fast and simple to assemble.

A pedestal/stand for raised floors can be applied on a number of heads of supports for raised floors. The pedestal/stand may include at least one beam. The beam is of a contoured type and includes at least one zone for interlocking mechanical association with the number of heads of the supports.

Support element for spacers comprising a base provided for being placed on a surface elevation pedestal, which basis is provided with at least a first and a second window having a curved geometry, each window being provided for applying therein one of the spacers in such a manner that the spacer can be freely moved in the window in which it is applied and be guided by that window when being moved, the first and second window each having a start section and a final section, the final section of the first window and the start section of the second window being juxtaposed one to each other in such a manner that a linear axis starting from a centre of the basis in a direction towards an external border of the basis crosses successively the final section of the first window and the start section of the second window.

A system for non-contact transmission of electrical energy to a mobile part has a double floor in which a primary part is situated.

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 floor frame includes at least two spaced longitudinal support strips and at least one lateral support strip. Each longitudinal support strip has longitudinal upper and lower portions and a pair of longitudinal side walls. A shoulder is designed on at least one of the pair longitudinal side walls and located between the longitudinal upper and lower portions. Two shoulders of the two longitudinal support strips are opposite to each other. The lateral support strip includes lateral upper and lower portions and a pair of lateral side walls. Two ends of the lateral support strip are placed on the two shoulders of the longitudinal support strips, respectively. A plurality of longitudinal and lateral support strips constitutes a grid-type structure under the distribution of longitudinal and lateral directions to provide the placement and fixation of a plurality of floor panels.

A system and a method are provided for securing an element (50) to a support surface (70). The system comprises at least one rail member (10), a mounting part (20) and the element. The rail member comprises a lower face (11) at least partially contacting the support surface, opposed to an upper face (12) and connected thereto by opposed lateral walls (14, 15) thereby to define a box section. Each lateral wall projects above the upper surface and an edge portion thereof forms an inward flange to define a substantially C-profiled rail with the upper surface. The mounting part (20) comprises a base plate, is substantially rectangular, made at least partially of a resilient material and dimensioned complementarily with the rail member, such that a width of the base plate corresponds at least to a distance intermediate the opposed lateral walls and a thickness of the base plate corresponds at least to a distance intermediate the upper face of the rail member and an underside of the flange, the at least partial resiliency of the base plate causing the mounting part to compress for sliding between the opposed rails and to decompress for achieving an interference fit. The base plate of the mounting part (20) comprises a topside (22) bearing at least a pair of upward feet (26A, 26B), each foot being configured on a same face with at least one tenon projecting orthogonally thereto. The or each element (50) has a lower face configured with at least two recesses (56A, 56B), each recess comprising a groove dimensioned for engagement with the or each tenon of a respective foot in use.