Frame houses for three months
Technology
It is built on the basis of light prefabricated wooden elements.
Bearing elements represent a massive wooden structure of conifers. Houses built from large-scale panels, the composition of which corresponds to European standards of wooden house construction.
Outer wall
scheme
1.Plasterboard 12,5ìì
2.Fermacel - Gypsum-fibrous sheet 12,5ìì
3.Vapor insulation
4.Wooden frame /filled
heat insulator/120ìì
5.Fermacel - Gypsum-fibrous sheet 12,5ìì
6.Facade insulation 107ìì
Heat transfer coefficient
U=0,18 Âò/ì2.Ê
Such technology is a guarantee of long lifetime, thermal insulation of high quality and reliable fire protection measures. This type of home economical in energy consumption resulting from high-quality thermal insulation of exterior and ceiling structures. Isolation of the outer wall can be increased by adding insulation wall thickness of 40 mm and so further increase the thermal protection at home. The low value of the coefficient of heat transfer wall construction U = 0,18 W/m2 provides thermal comfort during the chilly winters and hot summer days.
Outer wall scheme
insulated from outside
1.Fermacel - Gypsum-fibrous sheet 15ìì
2.Ñëîé òåïëîèçîëÿöèè 40ìì
3.Vapor insulation
4.Wooden frame /filled
heat insulator/120ìììì
5.Fermacel - Gypsum-fibrous sheet 15ìì
6.Facade insulation
s
The total thickness of the wall 297ìì
Heat transfer coefficient U=0,16
Internal partitioning
scheme
(bearing | separates)
1.Plasterboard 12,5ìì
2.Fermacel - Gypsum-fibrous sheet 12,5ìì
3.Wooden frame /filled
heat insulator 60/120ìì
4.Fermacel - Gypsum-fibrous sheet 12,5ìì
5.Plasterboard 12,5ìì
The total thickness of the wall 110/170ìì
The Internal partitioning scheme
(bearing | separates)
1.Fermacel - Gypsum-fibrous sheet 15ìì
2.Wooden frame /filled
heat insulator 60/120ìì
3.Fermacel - Gypsum-fibrous sheet 12,5ìì
The total thickness of the wall 90/160ìì
Quality of design ensures low heat loss of homes, and thus little heating costs.
Frame houses of this type belong to the ecological homes. All materials used in production and in their long-term operation, not harm the environment.
Brick House Czech frame technology
The thickness of the exterior walls while maintaining the same heat-insulating parameters is only 26,5 cm. Thus in comparison with the classical construction method, significantly saving floor space. The house is medium in size, this saving with the same built-up area may represent an additional one whole room!
The scheme
of the ceiling above the first floor
1.floor 10 ìì
2.floor gypsum-fibrous sheet 25 ìì
3.Hardboard sheet soft 60 ìì
4.Mirelon
5.Chipboard sheet 22 ìì
6.Celling beam 60x240 ìì
air gap 120 ìì
heat insulator 120 ìì
7.lathing 30 ìì
8.2õ plasterboard 25 ìì
The total thickness of the wall 412 ìì
The scheme of the ceiling above the loft
1.Heat insulator 100 ìì
2.Chipboard sheet 22 ìì
3.Celling beam 60x180 ìì
/filled heat insulator 180 ìì/
4.Vapor insulation
5.lathing 30 ìì
6.Plasterboard 15 ìì heat insulator 120ìì
The total thickness of the wall 347 ìì
Heat transfer coefficient U=0,14 Âò/ì2.Ê
Roof construction scheme
1.Roofing
2.Roofing beams 33 ìì
3.Compensating bars 33 ìì
4.Diffusion Foil
5.Rafter 60x180 ìì
air gap 30 ìì
lattice 60 ìì
/filled heat insulator 240 ìì/
6.Vapor insulation
7.Fermacell - Gypsum-fibrous sheet 12,5 ìì
6.Plasterboard 12,5 ìì
The total thickness of the wall 361 ìì
Heat transfer coefficient U=0,17 Âò/ì2.Ê
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