Oferujemy okna Pcv, okna drewniane, a także stolarkę aluminiową, drzwi i rolaty.

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MB60

MB-60 is a modern aluminium system, used for the manufacture of external architectural elements which require thermal and acoustic insulation such as: different types of windows, doors, vestibules, shop fronts and spatial structures.

This system uses three chamber profiles. Window section depths: 60 mm (frame) and 69 mm (wing) and doors: 60 mm and 60 mm accordingly. Such depths of wing and frame sections result in a single surface effect on the outside when shut when it comes to windows and an effect of uniform wings and frames surfaces when it comes to doors. The shape of the profiles provides slim and resistant window and door structures. It is possible to bend the profiles of frames, wings and batten plates, which allows for the construction of various types of bow and arch structures.

The MB-60 system characteristics include a low U heat transfer coefficient value due to the use of thermal interlayers and gaskets. MB-60 system profiles the heat transfer coefficient Uf is: from 2.0 W/m2K for windows and from 2.30 W/m2K for doors. The system uses pre moulded thermal interlayers in the shame of an omega and width 24 (windows) and 15 (doors) mm made from glass fibre reinforced polyamide. The shape of the interlayers improves the rigidity of the profiles as compared with flat interlayers and makes it easier to drain sections ensuring correct thermal insulation in all weather conditions. The HPVC sill and EDPM gaskets guarantee good thermal insulation of door wings and seal against water and air penetration.

A characteristic property of this system is its close alignment with MB-45, MB-59S and MB-70. window and door systems. The use of such structural brief allows for the use of many compatible elements in these systems, such as: common glass bars, corners, sealing profile strips, windows and rebate gaskets, common fittings, locks, hinges and many identical technological processes such as studding of couplings, batten plates and mid rails, attaching corners, cutting out recesses etc. One of the results of such unification is the fact that the appearance, both external and internal of various elements: windows, doors, etc., manufactured using different external or internal systems is almost identical.

 

 

MB70

MB-70 is a modern aluminium system, used for the manufacture of external architectural elements which require thermal and acoustic insulation such as: different types of windows, doors, vestibules, shop fronts and spatial structures.

This system uses three chamber profiles. Window section depths: 70 mm (frame) and 79 mm (wing) and doors: 70 mm and 70 mm accordingly. Such depths of wing and frame sections result in a single surface effect on the outside when shut when it comes to windows and an effect of uniform wings and frames surfaces when it comes to doors. The shape of the profiles provides slim and resistant window and door structures.

The MB-70 system characteristics include an extremely low U heat transfer coefficient value due to the use of special thermal interlayers and gaskets. This is particularly important in this age of growing expectation in terms of energy management and environmental protection. The Uf coefficient for MB-70 system construction is, depending on the used profiles and accessories between 1.5 to 2.39 W/m2K. The system uses pre moulded thermal interlayers in the shame of an omega and width 34 (windows) and 24 (doors) mm made from glass fibre reinforced polyamide. The offered shape of the interlayers improves the rigidity of the profiles as compared with flat interlayers and makes it easier to drain sections ensuring correct thermal insulation in all weather conditions. Thermal interlayers used in the windows perform an additional sealing function at the meeting point of the section and interlayer and ridges separating the chamber between internal and external aluminium sections into three parts.

Tightness is ensured by the use of special two-chamber gaskets made from EPDM synthetic rubber: solid and honeycomb, which guarantees resistance to ageing during many year of usage as well as very good thermal insulation. MB-70 is the first system to employ a central gasket made from this type of material.

The system allows for the use of glass panes between 21 mm and 57 mm in window wings and 12 mm to 48 mm in fixed windows and doors. Such a wide range of thicknesses guarantees the possibility of using all standard and non standard glass panes.

A large selection of colours from the standard pallet mean that the requirements of even the most discerning customers can be satisfied. Colour coatings are made by powder coating or anodising methods.

The MB-70 system is the basis for improved thermal insulation solutions. MB-70 HI, MB-70US HI and a warm-cold facade based on the MB-70CW HI windows.

 

 

MB 70HI

In an answer to the ever growing demand for building materials with a high thermal insulation parameters, MB-70HI, MB-70US HI window and door systems have been developed with a thermal interlayer and a curtain wall based on the MB-70CW HI windows. Their structure is based on proven, elaborate and valued MB-70, MB-70US and MB-70CW base systems.

Frame thermal insulation of these systems is significantly better than the thermal insulation of base system frames. The Uf coefficient for MB-70HI system constructions is, depending on the used profiles and accessories between 1.0 to 2.3 W/m2K.

Improved thermal insulation is achieved through locating special insulation inserts in the central, insulating chamber created by joining aluminium profiles with thermal interlayers. These inserts, due to their low thermal transfer coefficient, reduce thermal conductivity of this chamber. The centrally located inserts also reduce convection and thermal radiation.

MB-70HI windows and doors, similar to the base system may be used both for individual dwellings as well as aluminium facades, and if used as a filling for a transom post wall, the most appropriate would be in combination with the MB-SR50 HI system with improved thermal insulation.