Queen Chrome Designer Radiator - 960 x 500mm

Quickfind Code: 70252 SKU: VKQUEE0905CH
Queen Chrome Designer Radiator - 960 x 500mm Queen Chrome Designer Radiator - 960 x 500mm
  • Queen Chrome Designer Radiator - 960 x 500mm
  • Queen Chrome Designer Radiator - 960 x 500mm - Closeup
  • Queen Chrome Designer Radiator - 960 x 500mm - Technical Drawing
£159.00
Tax included
In Stock
If you order before 2pm your order will be delivered on Friday, 13th December

Our range of Designer Radiators are designed in house and manufactured at our factory for quality control assurance and peace of mind. The high outputs of our designer radiators are achieved from the sourcing of high quality mild steel finished in a stunning sparkling chrome plating (50 microns of chrome).

960mm(w) x 500mm(h) Queen Chrome Oval Tube Horizontal Radiator

  • Made from a Quality Mild Steel
  • Finished in Sparkling Chrome Plating
  • Supplied with Wall Fixing Kit, Bleed Valve & Blank Plug
  • 2687 BTUs (Delta T50)
  • Bar Pattern 15 Oval Vertical Tubes
  • Pipe Centres - Width of Radiator plus Valves
  • Projection 80mm
  • 10 Year Manufacturer Guarantee

We have designed the bar patterns on our range of designer radiators to optimise the volume and surface area for improved heat outputs and functionality in a wide range of installations and interiors.

This Radiator can be installed onto your Central Heating system (When fitted with a pair of radiator valves - not included)

NOTE: Please do not compare this product with cheap imports, which will be aesthetically less appealing, manufactured with inferior raw materials, have a poor finish and a reduced heat output.

Valve Kings Brand
VKQUEE0905CH Reference
In Stock Stock Level
Material Mild Steel
Width 960mm
Height 500mm
BTU Output 2687
Watts Output 788
Finish Chrome
Orientation Horizontal
Projection 80mm
Guarantee 10 Years
Socket Width ½" BSP
Maximum Operating Pressure 6 Bar
Pipe Centres 960mm plus valve widths
Model Queen

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°