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Structure
The steel foot is the support comprising: A) BASE: support for the stem. B) STEM: threaded M16 to adjust height of the head. C) HEAD: with a double base supporting both panel base for stability and perimetral border for airtightness. The head is provided with four threaded holes for panel corner locking and four threaded holes for stringer locking. D) STRINGER: the structure is completed with "U" shaped galvanized steel stringers 29 x 25 mm 1,2 mm thickness connecting pedestal heads.
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Problems related to the incompatibility between traditional building structures, conceived as to remain unaltered in time, and technical wiring, which need to be changed continously and adapted to user new necessities, are extremely important in buildings provided with high technological environments. In the beginning, access floors had been projected only to solve problems of plant engineering in data processing centres. Today, access floors are the best solution for many other projects where technical flexibility is required.
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This all steel pedestal fully complies with the heavy grade requirements of the PSA MOB PF2 PS/SPU specification and is used for finished floor heights from 600mm to 1200mm. The pedestal design utilises a 90mm diameter head which allows the use of standard plastic head caps. The baseplate is 120 mm square and includes provision for the use of mechanical fixing to the sub-floor in addition to the use of pedestal adhesive if required. The pedestal head design allows for the use of snap-on and bolt-on stringers if required.
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This all steel pedestal fully complies with the heavy grade requirements of the PSA MOB PF2 PS/SPU specification and is used for finished floor heights from 50mm to 600mm. The pedestal design utilises a 90mm diameter head which allows the use of standard plastic head caps. The baseplate is 100 mm square and includes provision for the use of mechanical fixing to the sub-floor in addition to the use of pedestal adhesive if required. The pedestal head design allows for the use of snap-in and bolt-on stringers if required.
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The technique of the raised floor as a means of adjusting to modern life, our mission of continual research, our flexibility in satisfying clients’ needs have led us to develop and produce an exclusive new series of products: the evolution of the species of raised floors: Darwinfloor.
Darwinfloor is a panel which surpasses all those used up to now, because it is 100% waterproof, odourless, ecological, safe and specifically designed for its purpose with any ceramic or stone finish. A creation designed by us, generated to cater to our clients’ requirements, invented to satisfy a number of contemporary needs, destined to change the face of raised floor systems.
Darwinfloor series gives the possibility to realize not only INDOOR installations but also OUTDOOR raised floors.
Total thickness with surface finish in porcelain stoneware approximately 25 mm.
TECHNICAL DESCRIPTION:
REACTION TO FIRE: Class 1
RESISTANCE TO FIRE: REI 90
ELECTRICAL RESISTANCE: ≤ 2x10E10 ohm
SOUND DEADENING POWER: ≥ 38 db
DENSITY: 2200 Kg/m3
DIMENSIONAL VARIATION (after 24 hours immersion in water): 0 %
WEIGHT OF PANEL (with finish in porcelain stoneware): ±24,3 Kg
WEIGHT OF PANEL PER SQ. M. (with finish in porcelain stoneware):±67,5 Kg
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System Description
The structural stringer bar is press formed from 1.20mm galvanised steel. The tang at each end of the stringer positively locates through the pedestal head and can be mechanically fixed if required. The structural stringercompliments the MaxspanHeavy grade panel enhancing the system to Extra Heavy grade.
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System Description
Each pedestal consists of a flat steel base plate 100mm x 100mm x 2.5mm thick. The base plate has four 6mm holes near each corner. The holes are on the diagonal 11mm in from the corners. A 25.4mm outside diameter by normally 20mm inside diameter steel tube 25.4mm high is spot welded to the centre of the base plate A threaded steel stud with a thread diameter of 19.8mm is pressed into the base plate tube. A 15.5mm steel nut fits onto the free end of the steel stud. The head consists of a circular steel plate 89mm outside diameter with a 31mm inside diameter hole at the centre, formed by pressing down a circular flanged lip 12mm deep in it. The head is 2mm thick and has four 5.8mm holes spaced evenly around it on a 65mm PCD, 10mm in from the circumference. The last 6mm outer edge of the circular plate is profiled downwards slightly and the circumference truncated slightly at four points evenly spaced around the circumference. A steel tube 70mm long x 25.4mm outside diameter x 20.3mm inside diameter is swaged over the last 25mm of one end such that the free end has an outside diameter of 38.5mm.
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The ASM low profile system is perfect for retrofits, or any building where low ceiling space is an issue. This system utilizes the ASM low profile pedestal (LPP) to achieve a low profile floor system.
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This all steel pedestal fully complies with the requirements of BS EN 12825 and is used for finished floor heights from 60mm to 380mm. The pedestal design utilises a 90mm diameter head which allows the use of standard plastic head caps. The baseplate is nominally 80mm square and includes provision for the use of mechanical fixing to the sub-floor in addition to the use of pedestal adhesive if required. Two designs of the pedestal head allows for the use of screw down floor panels or the use of stringers; specify at time of order.
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DESCRIPTION
Pedestal: completely in galvanized steel with +/-25mm 6 position regul.nut
Head gasket: 2,5mm thk. PVC for an optimal stamping noise attenuation
Stringer: "L" light stringer H=18mm
"M" medium stringer H=30mm
"H" heavy stringer 25x25 mm
Stringer gasket: 1 mm thk. PVC for an optimal stamping noise attenuation
Grid dimensions: std. 600x600mm, on demand 596x596, 598x598, 604x604mm (further dimentions on demand)
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The Type BVH Maxi and BVHS floor access panels feature a 10.2 cm deep pan cover designed to accept a wide variety of flooring materials. The panel is available with reinforcing for 125 kN, 250 kN, and 400 kN test loads (per EN 124)and in steel and stainless steel construction.
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ASM offers the most comprehensive variety of pedestal types allowing for durable strength in any of zones 1 through 4. This full line of pedestals can further be strengthened by bolting them to the concrete slab for the most solid access flooring systems available. ASM introduces its Atlas Pedestal Systems, designed for optimal heavy duty support and for the most severe conditions. No other system compares for strength and simplicity.
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- Versatile understructure for all types of installations
- Electrical resistance of less than 10 ohms
- ASM's steel manufacturing facility is ISO 9002 registered
ASM's superior finishes are effective and consistent, giving a bright and polished look with protective properties. All ASM's parts are dipped in the corrosion-resistant finish after stamping and welding, to protect welds and raw edges from rusting.
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Raised Access Floor Pedestals and Stringers ranging from 5cm to 100cm height. Made of quality sheet steel and protected against corrosion...
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