Lindner Loop Prime Floor
LOOP PRIME FLOOR
LOOP PRIME FLOOR
Refurbished raised floor
The raised floor system LOOP prime is the ideal product for nearly all applications with its excellent technical and building-physical characteristics.
INFORMATION
BRAND
Lindner
PRODUCT TYPE
Underfloor Heating
FIRE RESISTANCE (FIRE PROTECTION)
Fire resistance : DIN 4102-2 F 30 possible with additional measures
PRODUCTION
Made in Germany
CLASS
EN 12825 Class 1
BUILDING MATERIAL CLASS (FIRE PROTECTION)
Designation by building authorities : DIN EN 13501-1 (non-combustible
Difficult to ignite)
DETAIL
The raised floor panels being refurbished on five sides consist of fibre-reinforced calcium sulphate and a surrounding edge trim protection against damage and humidity. LOOP prime is configurable like a new raised floor panel. By machining used panels, it offers a carbon saving of 70,1 % in combination with a take-back guarantee compared with the equivalent new product.
CHARACTERSITICS
- Improvement of the CO2 balance to 7.2 kg/m²
- Water saving: 92.7 %
- Very high load-bearing capacity
- Non-combustible
- Easy removal and replacement of individual panels
- Very large selection of surface coverings
- First-class walking comfort
COVERING
Surfacing suitability : loose-laid tiles WOODline
PRODUCT.STUETZFUSSRASTER_WERT.NAME
595 mm x 595 mm
SUSTAINABILITY DECLARATIONS
-FSC : optional (TUEV-COC-000515)
-French VOC Regulation : Emission class A+
-Circular economy : Cradle to Cradle possible
-Product Self-Declaration : Self-declaration according to ISO 14021 possible
-EPD (Environmental Product Declaration) : EPD according to EN 15804 / ISO 14025 possible
BUILDING ACOUSTICS
- DIN EN ISO 717 1 : D n,f,w (64)
- DIN EN ISO 717 2 : ∆L w (36)
EVIDENCE GREEN LEVEL CERTIFICATE
- CO2 savings 70.10 %
- CO2 balance 7.20 kg/m²
- Water saving 92.70 %
WEIGHT
52 - 60 kg/m²
PLATE THICKNESS
32 - 39 mm
EARTH RESISTANCE
≥ 1 x 106 Ω
STANDARD PEDESTAL HEIGHT
20 - 2000 mm
STATICS
- Seismic safety : Possible
- Load and deflection class : DIN EN 12825 11 A - 2A
- Point load (breaking load) : DIN EN 12825 P breaking load 2 kN (4 kN) - 3 kN (6 kN)
ADDITIONAL EQUIPMENT
ELECTRICAL OUTLETS
As all electrical installations are laid under the raised access floor, electrical connections can be placed exactly where you want them by the insallation of electrical outlets.
EXPANSION JOINTS PROFILES
In order to take up horizontal and vertical movements in a structural and inconspicuous manner, expansion joint profiles are used in the area of the raised access floor, adapted to the application.
BRIDGING PROFILES
Due to structural reasons bridging is required where pedestals cannot be installed. In such cases, special bridging profiles are available which are easy to install and improve at the same time dynamic and static load-bearing capacities.
REINFORCEMENT PROFILES
Standard Lindner floor systems already exhibit high load-bearing capacities. Should these still not be sufficient, the system can be upgraded by reinforcement profiles. Various options are possible, from the lightest stringer which increases lateral rigidity through to a C-profile.
AIR VENTILATION OUTLETS
Air ventilation outlets allow the room to be air-conditioned and ventilated without creating draughts. Various systems are available: -Open system Ventilation takes place directly in the cavity for installations, which is designed as a pressure floor, through the corresponding air ventilation outlets or rather through the hexagonal ventilation outlets into the room. -Closed system In a closed system, the air is fed through a pipe system or through cavity barriers with fixed connections to the air ventilation outlets.
FACINGS
Staircases, platforms, etc. need to be finished with a front cladding (facing). Where features such as free-standing borders are required, the top edges of the facing will be protected with a stair edging profile.
CAVITY BARRIERS
Three different types of cavity barriers can be possible to meet the different requirements in the raised access floor area. -Ventilation barriers made from coated chipboard panels -Fire protection barriers made from solid gypsum wall blocks (min. 80 mm) -Sound protection barriers made from foam mortar (min. 100 mm)