As standard this 4 shelf Atacama Eris Eco 5.0 Special Edition rack some with 1 x 2 Shelf Base Module, 1 x 125mm Shelf and 1 x 175mm shelf. Please call 0208 930 9933 to configure your rack with different shelf height options.
Featuring high density carbonised bamboo resin composite material for the shelving, The ERIS ECO 5.0 SPECIAL EDITION Hi Fi support utilises handmade fully welded powder coated steel frame modules fitted with mini isolation gel pads designed to decouple the framework from the supported bamboo panels.
As well as our standard colours, High gloss Black and Cesium paint finishes for the frame and a choice of Natural, Medium or Dark finishes to the bamboo shelving are available as a no cost option.
This SPECIAL EDITION features an upgraded spike isolation system fitted to the legs of each module. While the standard ERIS ECO has plastic press fit upper and lower cone inserts for the leg isolation spikes to interface with, the SPECIAL EDITION version uses an advanced upper aluminium cone/ steel connecting stud/ lower aluminium cone system, designed to channel any residual resonance through the cones and studs which is then dissipated through to the floor.
A.S.I.S.T. (Atacama Sonic Isolation system Technology) gaskets are also fitted to each aluminium cone to aid isolation and help dampen any ringing within the steel legs themselves. To help further dissipate sonic resonance while reducing mass within each shelf, channels have been incorporated into the underside of each bamboo panel. These channels also act as a means of enclosing the main module framework resulting in a Hifi support that offers excellent value, Ultra high performance and a clean, stylish modern design.
Eris ECO is made in the UK. . Please note: -
Bamboo is a natural material so colour, texture, grain and age may give a variable appearance to each shelf. Because of this, adding an extra shelf at a later date will introduce a batch / colour tone difference. Where possible order your Eris as a complete modular support with enough levels to fulfil possible future requirements in order to minimize this variation.