More info about Spalock 218 x 228 R=25 cm Brown suitable for AMC Winner
Constructions of this cover 218 cm x 228 cm with radius 25 cm is made of insulating blocks with a density of 25kg per cubic metre. The colour is brown. Reinforcement is via a galvanised steel U-beam (steel is superior to aluminium in strength and torsional rigidity) which is embedded in the insulating block so that it does not risk damaging the moisture barrier.
The moisture barrier on the lid of the 820076 hot tub is in turn vacuum-sealed, hot-welded and made of aluminium-coated plastic film. Thickness and density are extremely important for insulation. This cover therefore has a maximum thickness of 127 mm in the centre and 102 mm on the sides for effective water drainage. To ensure the cover stays put on the bath, it comes with a 25 skirt that prevents the wind from grabbing it. It also comes with buckles for easy attachment to the bath. These can be found in a pocket on the packaging.
Suitable for many popular spas such as AMC Winer and others.
To see which other hot tubs this cover is suitable for, among others: Click here
The function of the vapour barrier and importance of the spa lid 218 cm x 228 cm R=25 cm is worth commenting further. One of the most common problems with spa lids is generally that the moisture barrier gives way, the lid takes in condensation and therefore soon weighs 100kg. The quality of the vapour barrier is therefore of paramount importance. We therefore decided to offer the most reliable vapour barrier on the market and we are convinced that we have now achieved this. The 820076 moisture barrier is made of Mylar, a material consisting of specially treated polyester and aluminium foil.
The 218 cm x 228 cm lid with 25 cm radius has a marine vinyl which surrounds the entire structure is of the highest quality and is anti-UV and anti-mildew treated at the factory.
Finally, for maximum durability, the joint of the vinyl is insulated along the entire length of the spalock with 2 small and one long pad to create durability and minimise heat loss.