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Ultraglide


Ultraglide

It is an aluminium system with increased thermal insulation intended for designing sliding or lift-and-slide structures, which meets all applicable standards. Excellent parameters make the system suitable for very large structures.

153-239 frame depth (mm)
67 sash depth (mm)

ULTRAGLIDE system is an aluminium construction with excellent parameters. It meets current standards in the field of thermal insulation, aesthetics and safety.

Excellent parameters of ULTRAGLIDE system allow to design structures with very large dimensions of sliding sashes (maximum possible dimensions are: sash height Hs=3300 mm and sash width Bs=3500).

This system also allows for constructing heavy and stable sliding windows and doors (maximum sash weight up to 250 kg for sliding option, and 400 kg for lift and slide option).

The profiles have been adapted to the installation of multiple commercially available manual and automatic locking fittings. Various fillings (single or double-chamber glass) can be applied.

ULTRAGLIDE system with large glazing ensures excellent interior lighting and facilitates arrangements, while maintaining stability, functionality and lightness of the structure.

An additional advantage is a wide range of colors (RAL palette, structural and wood-like colors, anode, bi-color), so we can easily choose a solution that fits your project..

SYSTEM

MATERIAL

WINDOW FRAME DEPTH

SASH DEPTH

GLAZING THICKNESS

SASH WEIGHT

TYPE OF DOORS

Ug

aluminium / insulation material

153 mm
to 239 mm

67 mm

sash
14-52mm

up to 400kg

slide, lift and slide

UG i+

aluminium / insulation material

153 mm
to 239 mm

67 mm

sash
14-52mm

up to 400kg

slide, lift and slide

Technical specification

SYSTEM

THERMAL INSULATION UF*

AIR PERMEABILITY

WIND LOAD

WATER-TIGHTNESS

Ug

Uf from 1.45 W/m2K

Class 4; PN-EN 12207

C4 (1600Pa); PN-EN 12210

9A (600 Pa) PN-EN 12208

UG i+

Uf from 1.13 W/m2K

Class 4; PN-EN 12207

C4 (1600Pa); PN-EN 12210

9A (600 Pa) PN-EN 12208

*Thermal insulation depends on combination of profile compositions and filling thickness