Casement Systems

CS 01

Rabel 8200 Super Thermal Plus

Essentially the best choice for a burglary resistant zero energy / passive houses developed to offer the best performance thus making it suitable to use in the projects with extreme weather conditions. All performance parameters have been optimised to achieve the best in thermal & acoustic insulation, burglary resistance, wind load capability, water tightness and air tightness at very high wind pressures.

This accompanied with a burglary resistant multipoint perimeter locking system and a choice of safety and acoustic glasses types, reaching up to 51 dB of sound insulation.

Technical Specifications:

  • Frame Height - 40 / 57 mm
  • Sash Width - 59 mm
  • Sash Height - 26 / 39 mm
  • Center Mullion Width - 26 mm
  • Type - Progressive
  • Max. Weight per Sash - 1200 Kg
  • Max. Sash Width - 4.0 m
  • Max. Sash Height - 4.0 m
  • Glazing Width Possibilities - 32 mm
  • Maximum Locking Points - 6
  • Thermal Break Width - 30 / 53 mm
  • Sealing Type - Brush with Cloth + Q-Lon

Performance:
Fabrication Thermal Transmittance EN ISO 10077-2 (Uw) ≥1.3 W/(m2K)

CS 02

Rabel 820 Super Thermal

Best suited for large aluminium openings and has been designed without compromise to deliver the best performance. Available in simple opening typologies like tilt only, tilt and turn and many others. To be specific, It is available in two aesthetic lines, namely sofline and flat design to entertain classical and modern architecture.

Comes with a burglary resistant multipoint perimeter locking system and a choice of safety and acoustic glasses types, reaching up to 51 dB of sound insulation.

Technical Specifications:

  • Frame Height - 59 mm
  • Sash Width - 82 mm
  • Sash Height - 69.96.5 mm
  • Type - Hinged
  • Max. Weight per Sash - 150 Kg
  • Max. Sash Width - 1.6 m
  • Max. Sash Height - 2.4 m
  • Glazing Width Possibilities - 43 mm
  • Maximum Locking Points - 9
  • Thermal Break Width - 34 / 38 mm
  • Sealing Type - 3 Gaskets

Performance:
Fabrication Thermal Transmittance EN ISO 10077-2 (Uw) 0.8-1.5 W/(m2K)