IT201700010256A1 - THERMAL FLOOR INSULATION SYSTEM - Google Patents

Description

DESCRIPTION

Realization of a thermal insulation system of the intrados of a floor by means of the creation of new elements such as to allow the use of Expanded Sintered Polystyrene (high density EPS1 and a real 3⁄43⁄4ative methodology. elements created by integrating them also with traditional materials.The choice fell on EPS for reasons of cost-effectiveness, however for the realization of the elements, and therefore of the system, other materials, including composite ones, can be used.

The first element called Fondino, represented in the section referred to in TAV. 1, is a "bottom container" made according to variable sections and lengths for the construction of a prefabricated beam in reinforced concrete. having the purpose, in addition to containment, of isolating the beam already in the packaging phase: in addition, with the use of various spacers, already on the market, it allows to comply with the Technical Standards on reinforced concrete. according to D.M. 14/02/92 and D.M. 09/01/96.

To give the Fondino greater rigidity and robustness, 2 ELLE steel profiles have been inserted (TAB. There of appropriate thickness; the originality of their insertion allows the use of EPS in the sections indicated, giving them strength and rigidity: they are also absolutely indispensable in the manufacturing phase in the factory and in the handling of the finished beam.

The creation of another new element, called Sottopignatta or Container, proves to be complementary and indispensable for the homogeneity of the intrados of the floor. This element is made, as in the section referred to in TAV.2, always in high density EPS and in variable sizes precisely to contain the various brick elements (intermediate) different from one furnace to another and which are precisely interposed between the two beams made with the Fondini elements TAV.3. The coupling of all of them confers uniformity of thermal insulation already in the construction phase of the floor without resorting to additional false ceilings to insulate.

The certified EPS does not contain CFCs and HCFCs, the expanding agents do not damage the OZONE layer and are not harmful to health; it also complies with the EC declaration of conformity, as well as with the UNI EN13164 / 2003 standards.

With this system, respecting the environment, we have achieved the following purposes:

1- Homogeneous thermal insulation of the soffit of an attic already in the manufacturing phase, preventing it from absorbing heat and sending it, by convention, back to the room below for immediate use: the contribution to the construction of a more efficient energy building is evident and notable .

2- Consequent saving in terms of energy produced to heat and therefore lower emissions.

3- Greater living comfort.

4- Easier handling of the product, ease of handling and packaging of the floor especially in renovations.

5- Less operator fatigue due to the lightness of the product

6- Lower incidence on transport costs with fewer polluting emissions: for the same number of floor slabs transported, much smaller means of transport are needed.

7- Versatility, since, even using different thicknesses or different materials suitable for constructions (eg: cork, wood-concrete, wood-magnesite ... etc.), with this composition a floor with different insulation specifications is obtained ternyco but also acoustic.

Claims (3)

CLAIMS 1) The element called Fondino in its "original" sections and dimensions as per TAV.l Att. 2) ELLE metal profiles in their “original” sections and dimensions as in TAV.l All. 3) Construction material: high-density EPS for the elements described: Bottom and Subpinata or Intermediate container. 4) The element called Sottopignatta in its "original" sections and dimensions, as well as from TAV. 2 Annex 5) Method of composition or construction of the complete floor described, as per TAV. 3 Att. 6) Dimensional and sectional variability of the composition elements (according to calculation needs). 7) Variability of the material for the realization of the elements: Fondino and Sottopignatta. 8) Variability of the material, even composite, contained in the Subpinata 9) Variability of metal components, according to static calculation requirements. 10) Variability of the composition of the constituent materials.