Hexagon Plinth 120H x 30W cm SALE

More views

Hexagon Plinth 120H x 30W cm SALE

£195.60 inc VAT

or £163.00 + VAT

Museum-quality Hexagon plinth, seamless and pristine. Matt white as standard, or customise from a range of options. 

120cm Hight and 30cm across the opposing parallel sides or 45.5cm point to point 

Product customization

After saving your customized product, remember to add it to your cart.



* required fields

More info

Artplinths Hexagons. 

This 6 sided plinth is 120cm height x 30cm across the opposing flat parallel sides  or 45cm from point to point.

Fully Mitred on all sides. All our 6 sided pedestals are fine finished in paint which can be hand applied or sprayed in any colour or in real hardwood veneers and Plywoods for furniture quality results.  Artplinths hexagon plinths are an economic alternative to cylinders or round plinths. Hexagons are a sturdy faceted shape and lend themselves to columns for retail or gallery displays. 

Fabricated in lightweight 12mm Medite® premier MDF as standard with mitred joints all round for a seamless finish (no more furry board edges). Professional quality hand-painted finish comes as standard and is easily touched up and repainted, or choose a sprayed finish in any RAL code to order. Our plinths have a simple removable shadow gap: they can sit directly on the floor or for AV cables or aesthetics they can be raised 6mm or more (no more mouse holes for cables).

Artplinths can be adapted for a multitude of applications, We can supply plinths in ZF formaldehyde-free and fire retardant MDF and other materials. We can adapt for heavy-duty use. We have three duty levels, up to a reinforced 18mm. on the website but we have produced bespoke plinths for loads up to 2 tons.

Other sizes made to order please ask 

Museum-quality display plinths, proudly made in London.

Artplinths | London Art Workshop is a London Living Wage Employer.

Data sheet

Height 120cm
Width 30cm across parallel sides
Depth 30cm across parallel sides
Weight of plinth 11KG
Hexagon Width Point to point .TBC