ESSMANN PVC base 30 - i
ESSMANN PVC base 30 - i featuring the innovative ESSMANN multi-chamber system, or equivalent. U-PVC system platform for quick and easy installation of skylight domes, installation units and double flaps. The skylight base is attached directly to the bearing structure.
Order size………..x…………. cm
Product description
Skylight base
PVC base made from U-PVC for quick and straightforward installation of skylight domes, installation units and double flaps.
Heat insulation system
The PVC base 30 - i features the innovative ESSMANN multi-chamber system.
Flange section
Flange section made from U-PVC with extrusion moulded, permanently elastic fastening surface.
Upper PVC base edge
Horizontal and level upper PVC base edge for friction lock fixing of a system frame or safety frame or for installation of fittings.
Drip edge
Extruded drip edge running all the way around with restraint lug on upper PVC base edge.
Skylight base structure
Multi-chamber system consisting of 29 chambers for optimum base design statics.
Mounting points
Permanently fixed mounting points in the skylight base for custom installation of ventilation units.
Skylight base corner
Accurately fitting, high-strength welded base elements for strengthening corners for the purpose of transport and installation and to ensure a long service life.
Connection system
PVC base suitable for uniform connection of PVC, PEC, VAE, and EVA roof sheeting plus full-surface integration of bitumen roof sheeting.
Fastening areas
Two marked fastening areas for on-site connecting rails all the way around the base body, plus a clearly marked fastening area on the flange to allow straightforward installation of the skylight base on the substructure.
Aerodynamic extraction face
In accordance with DIN 12101-2, the Aa value without CTW is _____ m²
In accordance with DIN 12101-2, the Aa value with CTW is _____ m²
Value when skylight base is combined with skylight dome and NHSE.
Heat insulation
An independent scientific test report from an approved testing institute must be available. The testing body must be recognised by DIBt in accordance with the regional building code/building rules list and must be accredited by DAP in accordance with DIN EN ISO/IEC 17025. Evidence of calculations (quoting the test report number) must be included if necessary.
When providing evidence of the U value, the U value Utot for the entire system (consisting of the skylight base and skylight dome) must also be provided. Evidence must also be provided in respect of the transmitted heat losses for the entire system (skylight base/skylight dome). This evidence must be included where necessary in the form of calculations and technical documentation.
According to calculations by the Fraunhofer Institute for Building Physics in accordance with DIN EN 1873, the Ukr value for the offered skylight base is
Ukr value ≤ 1.2 W/(m²K)
The calculation is performed in accordance with standards DIN EN ISO 6946 and DIN EN ISO 10211.
Technical specifications for the offered system:
Size of skylight base offered: ……x……. cm
Ukr value offered: …………… W/(m² K)
Aa value without CTW offered: …………… m² acc. to DIN 12101-2
Aa value with CTW offered: …………… m² acc. to DIN 12101-2
Fire behaviour: …………… Acc. to DIN 4102 / DIN EN 13501-1
Height of offered skylight base: …………… cm
Brand offered: ……………………
Value when skylight base is combined with skylight dome and NHSE.
ESSMANN or equivalent
(deviations must be indicated in the technical description)
Deliver complete, without unloading and transport onto roof
ESSMANN PVC base 30 - ih
ESSMANN PVC base 30 - ih featuring the ESSMANN multi-chamber system and innovative ESSMANN ih heat insulation system, or equivalent.
U-PVC system platform for quick and easy installation of skylight domes, installation units and double flaps. The skylight base is attached directly to the bearing structure.
Order size………..x…………. cm
Product description
Skylight base
PVC base made from U-PVC for quick and straightforward installation of skylight domes, installation units and double flaps.
Heat insulation system
The PVC base 30 - ih features the multi-chamber system plus innovative
ih heat insulation system.
Flange section
Flange section made from U-PVC with extrusion moulded, permanently elastic fastening surface.
Upper PVC base edge
Horizontal and level upper PVC base edge for friction lock fixing of a system frame or safety frame or for installation of fittings.
Drip edge
Extruded drip edge running all the way around with restraint lug on upper PVC base edge.
Skylight base structure
Multi-chamber system consisting of 29 chambers for optimum base design statics.
Mounting points
Permanently fixed mounting points in the skylight base for custom installation of ventilation units.
Skylight base corner
Accurately fitting, high-strength welded base elements for strengthening corners for the purpose of transport and installation and to ensure a long service life.
Connection system
PVC base suitable for uniform connection of PVC, PEC, VAE, and EVA roof sheeting plus full-surface integration of bitumen roof sheeting.
Fastening areas
Two marked fastening areas for on-site connecting rails all the way around the base body, plus a clearly marked fastening area on the flange to allow straightforward installation of the skylight base on the substructure.
Aerodynamic extraction face
In accordance with DIN 12101-2, the Aa value without CTW is _____ m²
In accordance with DIN 12101-2, the Aa value with CTW is _____ m²
Value when skylight base is combined with skylight dome and NHSE.
Heat insulation
An independent scientific test report from an approved testing institute must be available. The testing body must be recognised by DIBt in accordance with the regional building code/building rules list and must be accredited by DAP in accordance with DIN EN ISO/IEC 17025. Evidence of calculations (quoting the test report number) must be included if necessary.
When providing evidence of the U value, the U value Utot for the entire system (consisting of the skylight base and skylight dome) must also be provided. Evidence must also be provided in respect of the transmitted heat losses for the entire system (skylight base/skylight dome). This evidence must be included where necessary in the form of calculations and technical documentation.
According to calculations by the Fraunhofer Institute for Building Physics in accordance with DIN EN 1873, the Ukr value for the offered skylight base is
Ukr value ≤ 0.9 W/(m²K)
The calculation is performed in accordance with standards DIN EN ISO 6946 and DIN EN ISO 10211.
Technical specifications for the offered system:
Size of skylight base offered: ……x……. cm
Ukr value offered: …………… W/(m² K)
Aa value without CTW offered: …………… m² acc. to DIN 12101-2
Aa value with CTW offered: …………… m² acc. to DIN 12101-2
Fire behaviour: …………… Acc. to DIN 4102 / DIN EN 13501-1
Height of offered skylight base: …………… cm
Brand offered: ……………………
Value when skylight base is combined with skylight dome and NHSE.
ESSMANN or equivalent
(deviations must be indicated in the technical description)
Deliver complete, without unloading and transport onto roof
