Spur® Double Stage Weatherproof Louvres

Overview

Spur® Double Stage Louvres are commonly selected for buildings that require greater levels of rain defence where plant and equipment areas require high levels of watertightness. Arcadia's range of tested performance Louvres are engineered and tested to AS 4740:2000 and provide engineers and designers a guaranteed performance result. There are a broad range of Louvre profiles available including drainable louvre systems to meet differing project requirements for pressure drop and rain defence. In addition this louvre range provides a high level of privacy and screening for mechanical plant and equipment.

Spur® EL2-100

Depth (mm) 100

Material Extruded Aluminium G6060

Finish Powdercoat or Anodise

Weight (kg/m²) 20

Construction Modular or Kit-Form

Aesthetics Panels or Continuous

Orientation Horizontal and Vertical

Tested AS 4740 : 2000

Airflow Performance Class 3

Rain Defence Class C

Specification Product Data CAD REVIT LOUVRE CALCULATOR

Depth (mm) 100

Material Extruded Aluminium G6060

Finish Powdercoat or Anodise

Weight (kg/m²) 22

Construction Modular or Kit-Form

Aesthetics Panels or Continuous

Orientation Horizontal or Vertical

Tested AS 4740 : 2000

Airflow Performance Class 3

Rain Defence Class A

Specification Product Data CAD REVIT LOUVRE CALCULATOR

Depth (mm) 150

Material Extruded Aluminium G6060

Finish Powdercoat or Anodise

Weight (kg/m²) 25

Construction Modular or Kit-Form

Aesthetics Panels or Continuous

Orientation Horizontal or Vertical

Specification Product Data CAD REVIT LOUVRE CALCULATOR

The Spur® EL2-100 Double Stage Fixed Louvre System is a single piece chevron louvre which incorporated multiple weather stop channels to ensure a high degree of weather tightness while providing optimal airflow. The internal weather channels remove airborne water droplets from the airflow and transfer them back to the outside of the building via the specially designed vertical mullions and sill trays.

Louvre Comparison

Airflow Performance

Rain Defence

Louvre Depth (mm)

Product Data Sheet

Spur® EL2-100

CLASS 3

CLASS C

100

Spur® IEL2-100

CLASS 3

CLASS A

100

Spur® IEL2-150

CLASS 3

CLASS A

150

Single Stage Range Comparison VIEW FULL RANGE DETAILS

Airflow Performance

Rain Defence

Louvre Depth (mm)

Product Data Sheet

Spur® EL1-100

CLASS 1

CLASS D

100

Spur® EL1-100 WL

CLASS 2

CLASS D

100

Spur® Eliminator 100P

CLASS 2

CLASS D

100

Spur® EL1-100D

CLASS 3

CLASS B

100

Spur® IEL1-50

CLASS 2

CLASS D

Spur® IEL1-100

CLASS 2

CLASS D

100

Triple Stage Range Comparison VIEW FULL RANGE DETAILS

Airflow Performance

Rain Defence

Louvre Depth (mm)

Product Data Sheet

Spur® EL3-200

CLASS 4

CLASS A

200

Spur® IEL3-150

CLASS 4

CLASS A

150

Spur® IEL3-200

CLASS 4

CLASS A

200

Spur® EL3-150W

CLASS 4

CLASS A

150

Features

Propelling High Performing Louvre Designs to Meet HVAC and Engineering Needs

Specifying weather louvres can be challenging, and if you don’t take into account all of the relevant considerations, you risk selecting the incorrect louvres for your project. Check out our whitepaper our educational whitepaper to help guide you draft an effective louvre specification.

Using a Testified and Certified Louvre System

The Australian Standard AS4740 sets out the requirements of testing of louvre systems. This testing is conducted in a testing rig and provides industries standards for airflow performance and rain defence. An untested and uncertified louvre system can result in poor airflow performance and impact on personnel wellbeing. The Spur® Fixed Louvre Systems have been exhaustively tested and certified using Australian Standards AS 4740.

Airflow Performance

Louvre airflow performance is affected by a range of physical elements including the louvre blade configuration, the louvre depth, the quantity of passes (single, double, triple stages), the louvre blade shape and any protrusions that interfere with the free flow of the air or that cause turbulence. Increased air velocity may cause varying areas of turbulence and flow disturbance which affect the louvre performance.

Weatherproof Louvres Protect Against Harsh Weather

Incorporating weatherproof louvres into a structure’s design protects structures from adverse weather conditions. This is an essential architectural feature designed to withstand various weather conditions. Arcadia’s louvres are specially engineered to prevent rain, snow, wind, and other elements from penetrating the building’s interior– all while allowing ventilation and air exchange within a building.

Stormproof Louvres Shield Against High Winds and Storms

Cyclones, tropical storms, and high winds are inevitable forces of nature that could destroy buildings and homes. Our stormproof louvres are designed to withstand severe weather storms and resist high wind pressures. Our louvres reduce the risk of wind-driven forces on buildings, decreasing the likelihood of damage to any structure. Integrating stormproof louvres into a structure’s design enhances resilience and ensures the safety of occupants during storms.

Factors to Consider When Choosing Weatherproof Louvres

Severity of local (site) weather conditions
Location and exposure of louvres on building
Airflow rate and direction through louvre
Maximum allowable water penetration
Maximum acceptable pressure drop
Relevant performance data (site requirements)
Special solutions for sloping applications and
Building Aesthetics

Louvre Performance Calculator

This user friendly calculator will help you choose the right louvres from our wide range.

LOUVRE CALCULATOR

Applications

Products used Spur® Double Stage

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Overview
Spur® Double Stage
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