Technical sheet

A.01A.02

SystemS-13

Raised access floor

A modular floor raised off the slab by a structure of adjustable pedestals, creating a continuous technical void underfoot. Cables, data, pipes and air run there; every panel lifts for access. Born for offices, data centres and control rooms, it turns the floor into a flexible, inspectable service layer.

PavimentazioneModular floor on a technical void

B.01

System build-up5 layers

Technical section of the system, from inside (left) to outside (right).

Modular floor on a technical void

Altezza intercapedine

10-60cm

Modulo pannello

60x60cm

Carico concentrato

3-5kN

Reazione al fuoco

A2-B

Ispezionabilità

totale (ogni pannello)

Destinazione

uffici, data center

Descriptive memo

The raised access floor separates the walking surface from the structural slab, lifting it on a grid of height-adjustable pedestals. The space that arises - the technical void - becomes the route for all the horizontal services. Every panel is removable: the services are no longer buried in a screed, but always reachable, modifiable and reconfigurable.

The technical void: flexibility and access

The value of the system is the void under the panels. In an office building or a data centre the services change constantly: workstations that move, cabling that grows, air-conditioning that is redistributed. With the raised floor one simply lifts a panel with a suction cup to intervene, without demolition. The void can also become an air-supply plenum, distributing the conditioning from below, where it is needed, with great efficiency and comfort.

Pedestals and panels: the mechanics of the system

The structure is made of pedestals (adjustable columns bonded or fixed to the slab) and, for greater heights or high loads, of stringers connecting them in a grid. On top rest the modular panels (usually 60x60 cm), of calcium sulphate or high-density chipboard, often with a non-combustible core and a bonded finish (stoneware, stone, linoleum). The performance is measured on the load: concentrated, distributed and ultimate, to be chosen according to the use (office or machine room).

Acoustics, fire and regularity: the controls

Three aspects must be guarded. Acoustics: the void can transmit impact and airborne noise between adjacent rooms, so panels, gaskets and compartmentation under the walls are detailed. Fire: panels and structure must have adequate reaction and resistance, and the void must be compartmented so as not to become a spread path. Flatness and stability: well-adjusted, bonded pedestals avoid creaks, rocking and steps, ensuring a safe and silent floor.

Systems architecture

Why it works

Inspectable void

By raising the floor on pedestals a continuous void is created where all the horizontal services run. Every panel lifts off with a suction cup: cables, data and conditioning are changed and reconfigured without any demolition, and the void can act as an air-supply plenum from below.

Access to services

Comparison · insulants

Raised floor

total

Trunking / chases

partial

Screed with pipes

low

Solid screed

none

Longer bar = services more accessible and reconfigurable. The raised floor gives total access to every point; in the screed the services are buried and every change requires demolition.

Nodal details

Critical junctions · sections

D.01

Support pedestal

The pedestal, bonded to the slab, adjusts the height with a threaded rod and a nut; the head receives four panels, with a gasket that cushions and silences the bearings.

Slab
Bonded base
Threaded rod (adjustment)
Pedestal head
Acoustic gasket
Modular panel

D.02

Wall edge

At the perimeter the panels are trimmed to size on a dedicated support, with a gasket against the wall; under the walls the void must be compartmented for acoustics and fire.

Wall
Perimeter pedestal / profile
Trimmed panel
Perimeter gasket
Compartmentation (under wall)
Technical void

Installation controls

Specification · checklist

01 · Bedding plane

Clean, flat, dry slab

Set out the grid

Finished level checked

02 · Pedestals

Bonded and adjusted pedestals

Stringers for high heights/loads

Stability check

03 · Panels

Load class by use

Trimmed to size at the edges

Flatness, no rocking

04 · Services & compartments

Tidy service routes

Compartmentation under the walls

Air plenum if foreseen

05 · Acoustics & fire

Sealed gaskets and edges

Reaction-to-fire of the panels

Acoustic tests if required

Recurring defects

Diagnostics · site

Meccanica

Creaks and rocking

CausePoorly adjusted or unbonded pedestals, worn panels.

PreventionAdjustment and bonding, flatness control, suitable panels.

Termo-igrometrica

Panel swelling from moisture

CauseChipboard panels in damp voids or on grade.

PreventionVapour barrier, calcium-sulphate/moisture-resistant panels, ventilation.

Adesione

Finish delamination from the panel

CauseFinish-to-panel glue, traffic wear.

PreventionQuality panels, finishes suited to the traffic.

Biologica

Condensation/mould in the void

CauseUnventilated, uncompartmented void over damp or below-grade spaces.

PreventionVapour barrier, ventilation/compartmentation, suitable panels.

Component materials

The network · materials

Marble

Natural Mineral Insulator

Calcium Silicate

Metallurgical coating

Hot-Dip Galvanized Steel

Structural conglomerate

Reinforced Concrete

Reference regulations

2 norms

Informational links to the regulatory framework. Always verify the current text on the official source.