YGK (YGK-EF / YGK-RF) Small Format Adjustable Louvres

    • Product Details

      Introduction

      The Waterloo YGK are small format adjustable louvres manufactured from aluminium extrusion, with adjustable blades. This means that for applications where volume control is important there is no need for an aditional damper. Saving in the cost, the installation and the space required.

      The mechanism can be installed on the front or rear, left or right hand side. The YGK comes as standard with a rectangular aluminium perforated plate on the rear side. Options include two different frames, a drip cill and a selection of fixings.

      Product Description

      • YGK-EFExternally flanged small format adjustable louvre
      • YGK-RFRecessed frame small format adjustable louvre

      Features

      • Weather resistant design
      • Adjustable blades
      • Rear side perforated plate attached as standard

      Finishes

      PPG9010 (RAL 9010 Gloss - 80% Gloss White)
      PPM9010 (RAL 9010 Matt - 20% Gloss White)
      PPM9006 (RAL 9006 Matt - 30% Gloss Silver)
      Other colours or anodised finish available on request

      Weights

      • YGK12 kg/m² panel

      Sizes

      • Nom. W125 - 800 mm
      • Nom. H(YGK-EF) 187.5 - 975.0 mm in 37.5 mm increments
      • Nom. H(YGK-RF) 197.5 - 985.0 mm in 37.5 mm increments

      Fixing

      • SFScrew fixing
      • LFRear lug fixing
      • NFNo fixing

      Product Specification

       

      Related links

      Waterloo Mill Finish

       

      For more information please use our contact form;

      Call our Sales and Customer Service Hot Line:

      01622 711511

      Email: sales@waterloo.co.uk

       

       

       

       

       

    • Product Images

      YGK-EF Small Format Adjustable Louvres diag

       

      YGK-RF Small Format Adjustable Louvres diag

      The lever mechanism can be installed on the front or the rear of the louvre. Standard fitting is the left hand rear side

       

      YGK-diag

    • Product Model Data