Carisa Vintage Traditional Towel Rail - 650 x 650mm - Central Heating

Quickfind Code: 36432 SKU: VTG0650065003CHR
Carisa Vintage Traditional Towel Rail - 650 x 650mm Carisa Vintage Traditional Towel Rail - 650 x 650mm
  • Carisa Vintage Traditional Towel Rail - 650 x 650mm
  • Carisa Vintage Traditional Towel Rail - 650 x 650mm - Installed
  • Carisa Vintage Traditional Towel Rail - 650 x 650mm - Installed
  • Carisa Vintage Traditional Towel Rail - 650 x 650mm - Technical Drawing
£287.00
Tax included
Pre-Order
This item comes direct from the manufacturer as a special order item and delivery is estimated to be 4-6 Weeks from date of order.
info Product Information

The Carisa Vintage designer heated radiator certainly has all of the classic appeal its name suggests, which makes it extremely versatile in terms of design options. Its attractive vintage looks make it an obvious choice in older homes or for traditional bathroom designs, but it can also create an effective contrast in particularly modern settings or with minimalist aesthetics.

With its tubing layout, this towel rail provides excellent coverage when hanging towels to heat through. The central section has a small ladder-like group of tubes, which make a broad heating surface while also providing plenty of points on which to hang small items.

Made from steel, the towel rail makes use of this metal's excellent conductivity, heating fast and retaining its warmth efficiently to help you cut down on energy consumption. The smart chrome finish gives the towel rail a touch of shine and protects it from damp, making cleaning and maintenance easier

Returns policy for Carisa Branded Products
VTG0650065003CHR Reference
Out of Stock Stock Level
Material Mild Steel
Width 650mm
Height 650mm
BTU Output 586
Watts Output 172
Finish Chrome
Projection 165mm
Guarantee 10 Years
Fixing Kit Full Wall Mounting Kit Included
Pipe Centres 575mm
Design Traditional Towel Rail

Tags

This is just a guide for reference only, rooms may require more than one radiator. If this applies to you, divide the required output between the number of radiators required. All figures given are for Delta T 50°