AAG skydome with aluminium frame
AAG wing overview and technical data
| Reaction to fire | Class |
| Heat transfer coefficient - glazing | Ut |
| Heat transfer coefficient - skydome without upstand | Ur |
| Heat transfer coefficient - skydome with upstand | Urc |
| Upward load | UL |
| Downward load | DL |
| Soft body impact | SB |
| Air permeability | AP |
| Sound transmission loss | Rw |
| Watertightness | Comply |
| Hard body impact | Comply |
| Radiation properties | tD65 /g |
- without burnished wired glass - reaction to fire according to ČSN EN 13 501-1
-
Dome glazing with reaction to fire, PET-G 2 - 5 skin
- reaction to fire according to ČSN EN 13 501-1
- top layer - PET-G dome, clear
- bottom layers - PET-G dome, clear
- aluminium AAG frame thermally broken
Reaction to fire:with upstand from steel = B, with upstand from PVC = EHeat transfer coefficient Ut/Ur/Urc (W/m2.K):double skin = 2,7/2,4/1,7, triple skin = 1,8/1,8/1,4, quad skin = 1,3/1,5/1,3, pětivrstvá = 1,1/1,4/1,2 W/m2.KRadiation properties (tD65/g):double skin = 77%/0,74, triple skin = 68%/0,64, quad skin = 60%/0,55, penta skin = 53%/0,47UL = 3000, DL = 2500, SB = 1200, AP 6, Rw = 26 dB (PET-G/4) -
Dome glazing with reaction to fire, PET-G/PC sheet
- reaction to fire according to ČSN EN 13 501-1
- top layer - double skin PET-G dome, clear
- bottom layer - 25 mm PC sheet, clear or opal diffused
- Heat transfer coefficient
Reaction to fire:
with upstand from steel = B, with upstand from PVC = E
Heat transfer coefficient Ut/Ur/Urc = 0,87/1,2/1,1 W/m2.KRadiation properties (tD65/g): PC tl.25 mm, clear = 38%/0,36, opal diffused = 31%/0,31
UL = 3000, DL = 2500, SB = 1200, AP 4, Rw = 30 dB
Important informationí:
Any breakage of the glass after the customer has received the delivery of the skydome, whether during onward transport, storage, on the transport frame, during assembly and handling or installation on site, or breakage of the glass due to thermal shock or climatic fracture etc. are not subject to a claim and cannot be accepted.
To prevent dirt from settling on the skylight filling, we recommend using a glazing dome or a PIR base frame with a slope for applications with a skylight placement of up to 5° for glass fillings and for polycarbonate (PC) fillings.
Because of snow overload (there is a danger of glazing collapsing and leaking) of flat glass and flat polycarbonate (PC) glazing, it is necessary to regularly clean snow from the skydome surface.
Follow the instructions for skydome snow load measurements. download here


