KlassicView Louvre Window

About KlassicView Louvre Window

The KlassicView 76mm Louvre window is an ideal choice if you looking for greater air flow, sunlight and ventilation in your home.

With louvre blades available with heights of 102mm and 152mm, the KlassicView Louvre window can be coupled with any other KlassicView system with the addition of adaptors.

Designed and engineered in Australia, the KlassicView 76mm Louvre window has been tested and exceeds Australian Standard AS2047.

Design Features:

  • Accepts glass thickness of 6mm single glazed glass
  • Accepts glass thickness of 6mm single glazed glass
  • Can be coupled to other KlassicView products with the use of adaptors
  • Available in 152mm blades & 102mm blades
  • Frame accepts fly screens or Barrier Screens

WERS Ratings

The Window Energy Rating Scheme (WERS) is accredited by the AFRC – which means that WERS ratings are compliant with the NCC.

Reports are prescribed both the window performance for total window U Value (Uw) and total window Solar Heat Gain Coefficient (SHGCw).

U-value

U-value measures how well a product prevents heat from escaping.

It is a measure of the rate of non-solar heat loss or gain through a material or assembly.

U-value ratings generally fall between 2.0-10.0 W/m2.K for Australian products. The lower the U-value, the greater a window’s resistance to heat and cold flow and the better its insulating value.

Solar Heat Gain Co-efficient (SHGC)

SHGC measures how well a product blocks heat caused by sunlight. SHGC is expressed as a number between 0 and 1. The lower a window’s SHGC, the less solar heat it transmits.

Tested to AS2047

Under the Building Code of Australia, we are required to produce windows and doors that meet mandatory minimum specifications under Australian Standard (AS) 2047 – including AS1288.
Simulations of High Winds and Driving Rains

AS4420.2 Deflection Test – positive and negative wind pressures are applied to the face of the window to test the maximum deflection under wind load.
AS4420.5 Water Penetration Resistance Test – to verify that no water leaks through the window into the building.

Operating Force Requirement

AS4420.3 Operating Force Test – to verify that an opening sash is capable of opening and closing without undue effort.

Air Infiltration Pressure

AS4220.4 Air In filtration Test – the air leakage of a window is tested to ensure energy and acoustic efficiency.

Ultimate Strength Testing

AS4420.6 Ultimate Strength Test – negative and positive wind pressures are applied to the window to at least 1.5 times the design wind pressure to ensure it does not fail in unusual wind conditions.

About

About KlassicView Louvre Window

The KlassicView 76mm Louvre window is an ideal choice if you looking for greater air flow, sunlight and ventilation in your home.

With louvre blades available with heights of 102mm and 152mm, the KlassicView Louvre window can be coupled with any other KlassicView system with the addition of adaptors.

Designed and engineered in Australia, the KlassicView 76mm Louvre window has been tested and exceeds Australian Standard AS2047.

Design Features:

  • Accepts glass thickness of 6mm single glazed glass
  • Accepts glass thickness of 6mm single glazed glass
  • Can be coupled to other KlassicView products with the use of adaptors
  • Available in 152mm blades & 102mm blades
  • Frame accepts fly screens or Barrier Screens
Wers Ratings

WERS Ratings

The Window Energy Rating Scheme (WERS) is accredited by the AFRC – which means that WERS ratings are compliant with the NCC.

Reports are prescribed both the window performance for total window U Value (Uw) and total window Solar Heat Gain Coefficient (SHGCw).

U-value

U-value measures how well a product prevents heat from escaping.

It is a measure of the rate of non-solar heat loss or gain through a material or assembly.

U-value ratings generally fall between 2.0-10.0 W/m2.K for Australian products. The lower the U-value, the greater a window’s resistance to heat and cold flow and the better its insulating value.

Solar Heat Gain Co-efficient (SHGC)

SHGC measures how well a product blocks heat caused by sunlight. SHGC is expressed as a number between 0 and 1. The lower a window’s SHGC, the less solar heat it transmits.

Testing

Tested to AS2047

Under the Building Code of Australia, we are required to produce windows and doors that meet mandatory minimum specifications under Australian Standard (AS) 2047 – including AS1288.
Simulations of High Winds and Driving Rains

AS4420.2 Deflection Test – positive and negative wind pressures are applied to the face of the window to test the maximum deflection under wind load.
AS4420.5 Water Penetration Resistance Test – to verify that no water leaks through the window into the building.

Operating Force Requirement

AS4420.3 Operating Force Test – to verify that an opening sash is capable of opening and closing without undue effort.

Air Infiltration Pressure

AS4220.4 Air In filtration Test – the air leakage of a window is tested to ensure energy and acoustic efficiency.

Ultimate Strength Testing

AS4420.6 Ultimate Strength Test – negative and positive wind pressures are applied to the window to at least 1.5 times the design wind pressure to ensure it does not fail in unusual wind conditions.

Technical Manuals
CAD Drawings

Specifications

SystemMaximum weight per panelMaximum height per panelMaxiumim Width per panelGlass ThicknessTest Report No.Water Rating (Pa)Structural (Pa)Ultimate (Pa)
Klassicview Lourve WindowN/A2400mm900mmTBAAZT0149.13150NA4000

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