Thermoprofile explanation

1. PRODUCT GUIDE

2. Exterior walls
Product guide
Build faster and with better quality. Thoroughly prepared large elements make work on the site
fast. Many different materials can be used for the interior and exterior finishing of Everhaus
elements, and openings can be designed in the exterior wall elements almost without restriction -
this way it is possible to give the Everhaus façade an architectural look according to the project.
We are your partners from the initial design phase to the final completion of the exterior wall. In
the case of particularly demanding facade coverings and complex connection units, we use test
elements in advance to assess the quality of the design solutions. In addition to external walls,
the large element system is also suitable for the construction of partition and roof ceilings.
Places of use
• office and commercial buildings
• community buildings
1
• industrial buildings
• residential buildings
• additional floors and extensions

3. Everhaus LLC
Väike – Sõjamäe 5, Tallinn, Estonia
+372 5032841
www.everhaus.eu
info@everhaus.eu
2

4. 3
• Specification
1. Facade covering options
• steel or other metals
• timber cladding
• glass
• natural stone
• brick
• ventilated thin plaster
• warm plaster
• ceramic tiles
2. Ventilation gap 20mm
• battens, SO1
3. Wind protection
• cement fiber board Cembrit 4,5 mm
4. Insulation / thermoprofile
• Insulation
fire resistant
thermal conductivity
λ Design = 0,035/0,037 W/m²K
(the edges of the windbreaker are sealed and the
insulation is supported by a strong surface on both
sides)
Thermoprofile
Steel S350GD+Z
T – general symbol of thermoprofile
TU - U- cross section thermoprofile
TC - C- cross section thermoprofile
TUL - U- cross section thermoprofile
5. Vapor barrier
• LDPE-polyethylene 0,2 mm, SFS
4225, with UV protection according to
class E.
Water vapor permeability Wp = 0.002 * 10-9 kg / (m²sPa),
water vapor resistance Zp = 500 * 109 m²sPa / kg
6. Interior finishing material
• Fermacell fiberboard 12,5 mm
Figure 1: Thermoprofile layers

5. 4
•
*) 2,0 mm paksusest materjalist karkassi puhul kasutatakse 6-realist perforatsiooni
• Technical features
Construction from outside to inside:
Windbreak plasterboard 9 mm
Thermoprofile frame with a pitch of 600 mm:
8-row perforation / mineral wool insulation
Vapor barrier film
Fermacell fiberboard 9mm
Figure 2: Thermoprofile construction
U-values
Calculation
standard
ISO EN 6946
Table 1
Frame thickness Special thermal
conductivity of insulation
material λ Design
Wall U-number for different material thicknesses of the frame W/m²K
mm W/mK 1,0 mm 1,2 mm 1,5 mm 2,0 mm *)
125 0,035 0,282 0,287 0,294 0,317
150 0,035 0,247 0,252 0,259 0,279
175 0,035 0,221 0,226 0,234 0,246
200 0,035 0,202 0,207 0,214 0,228
225 0,035 0,186 0,191 0,198 0,211
125 0,037 0,294 0,299 0,306 0,354
150 0,037 0,257 0,263 0,270 0,313
175 0,037 0,231 0,236 0,243 0,284
200 0,037 0,210 0,216 0,223 0,261
225 0,037 0,194 0,199 0,207 0,243
175 0,041 0,250 0,255 0,262 0,305
200 0,041 0,227 0,233 0,240 0,280

6. 5
• Sound insulation
Test standard:
Classification standard:
Table 2
EN ISO 140-3:1995
EN ISO 717-1:1996
Constructions from the inside to the outside
Frame thickness 225 mm
Rw (dB) Ctr,100-3150 (dB) RA,tr (=Rw+Ctr) (dB)
EK13+T225+TS9 54 -7 47
Frame thickness 175 mm
EK13+T175+TS9 51 -9 42
EK13+thin steel sheet 0,6 mm+T175+TS9 54 -9 45
EK13+T175+TS9+gutter+profile plate 50 -7 43
2xEK13+T175+TS9+gutter+profile plate 51 -6 45
EK13+T175+TS9+vertical gutter+horizontal facade covering 49 -6 43
EK13+T175+TS9+gutter / additional insulation+profile plate 52 -9 43
EK13+T175+TS9+additional insulation 50 mm+plaster 8 mm 54 -7 47
EK13+T175+TS9+ventilation gap 30 mm+brick lining 85 mm 61 -5 56
Frame thickness 125 mm
EK13 +T125+TS9 50 -8 42
Rw (dB) Outside noise insulation
RA,tr (=Rw+Ctr) (dB) Traffic noise insulation
In the case of load-bearing wall constructions of a small house, it is also possible to achieve REI30 and
REI60 if special instructions are followed.
R = load-bearing capacity, E = density and integrity, I = thermal insulation
Test standard: EN 1363-1, EN 1365-1
Classification standard: EN 13501-2
Constructions from the inside to the outside Fire resistance
EK13+TC175+TS9 EI 60
Table 3• Fire test

7. 6
• Dimensioning
Figure 3: Dimensioning graphs of TC-175 and TU-175 thermoprofiles for wind load
4: Dimensioning graphs of thermoprofiles TC-200 and TU-200 for wind load

8. 7
Figure 5: Dimensioning graphs of TC-175 thermoprofiles for the combined effect of compressive
force and wind load. The length of the profile is 3500 mm and the eccentricity of the compressive
force e = 25 mm
Figure 6: Dimensioning graphs of TC-200 thermoprofiles for the combined effect of compressive
force and wind load. The length of the profile is 3500 mm and the eccentricity of the compressive
force e = 25 mm

9. Variant1
Variant2
Variant3
• Types of large elements
Rectangular element max. 3600 x 10500 mm
Tape element max. 3600 x 10500 mm
Industrial element max. 3600 x 10500 mm
Volumetric element max. 4000 x 10000 x 3300 mm
Multistorey residential
buildings
Rectangular element
system
Small houses and terraced houses
Rectangular and room element system
• Certificates
EN ISO 9001 quality control system
EN ISO 14001 environmental management
system
Commercial and office buildings
Rectangular element system
Tape element system
Industrial buildings
Industrial elements
• Maintenance
The thermal profile frame of Everhaus wall elements
does not require maintenance. The interior and exterior
cladding panels of the carcass are usually under facade
cladding and interior finishing materials; therefore, they
do not need to be maintained either. To ensure the
correct functioning of the structure, it must be checked
that the design work and installation have been carried
out correctly and that the structure can be dried out.
8
Variant1
Variant2