SHEERtherm
warm roofs
Timber roofs for conservatories & single storey extensions
sheertherm warm roofs
Create a room that you can use all year-round
Are you looking to upgrade a glazed conservatory roof, or do you need to extend your property with a room that gives you that homely feel? Icotherm’s roof solutions offer you all the options for a standard conservatory roof replacement or a bespoke new build to match your property. Your Icotherm roof can include Velux® windows, panoramic glass panels or lanterns.
sheertherm warm roofs
WHY TIMBER?
Timber, a renewable building material, has been used in construction for centuries, starting in the Middle Ages. Early examples include Saint Paul’s Cathedral (17th Century) roof frame. Most Romanesque buildings (1000 AD) were roofed using timber frames.
One of timber’s other key benefits is that it is naturally insulating, as opposed to aluminium—which is known to be highly conductive.
Timber's thermal conductivity is very low, at 0.16 W/m2k (aluminium's is 205.0 W/m2k; it is very good at conducting heat and cold*).
The completed Icotherm roof offers a U-value of 0.15W/m2k, with 0.12 available for the Scottish and Welsh markets (even better than an insulated house cavity wall: 0.41w/m2k**).
KEY BENEFITS
Natural insulator: Timber is naturally insulating, as opposed to aluminium, which is known to be used for similar solutions.
Premium quality materials: Icotherm selects only the highest quality timber, using a premium C24 building-grade material.
FSC certified: All our structural timber is FSC certified. The Forest Stewardship Council (FSC) shall promote environmentally appropriate, socially beneficial, and economically viable management of the world’s forests.
sheertherm warm roofs
Blending in...
We can help you choose from a range of tile and fascia colours, ensuring your space will look as good from the outside as it does from the inside.
You can choose from a selection of lightweight tiles designed to blend in with your existing house roof.
We offer lightweight tiles that beautifully replicate traditional stone, terracotta, and slate. With a wide range of colours, your chosen tiles will match and complement your home. In addition, your choice of fascia and guttering will provide the finishing touches. Icotherm’s tile options are UV-protected as standard and have the additional benefit of being fire-rated for your peace of mind.
ICOSLATE (SLATE EFFECT)
ICOTILE (SHINGLE)
Disclaimer: The available selection of tile brands and colours may differ from the one shown here. Please always check availabilities with your installer.
sheerline roof lanterns
everything you need to know about our roof lantern systems
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The addition of an Icotherm roof can make yourroom up to 70% cooler in summer and 90%warmer in winter so you will be able to comfortablyuse your room all year round! You will also be ableto enjoy the benefits of reduced noise pollution, nosolar glare and extra privacy.
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be ventilated. It also has a low U-value due to the fact that it is built from timber, which thermal conductivity, and approval in condensation risk analysis. be ventilated. It also has a low U-value due to the fact that it is built from timber, which thermal conductivity, and approval in condensation risk analysis. be ventilated. It also has a low U-value due to the fact that it is built from timber, which thermal conductivity, and approval in condensation risk analysis. be ventilated. It also has a low U-value due to the fact that it is built from timber, which thermal conductivity, and approval in condensation risk analysis. be ventilated. It also has a low U-value due to the fact that it is built from timber, which thermal conductivity, and approval in condensation risk analysis. be ventilated. It also has a low U-value due to the fact that it is built from timber, which thermal conductivity, and approval in condensation risk analysis. be ventilated. It also has a low U-value due to the fact that it is built from timber, which thermal conductivity, and approval in condensation risk analysis. be ventilated. It also has a low U-value due to the fact that it is built from timber, which thermal conductivity, and approval in condensation risk analysis. be ventilated. It also has a low U-value due to the fact that it is built from timber, which thermal conductivity, and approval in condensation risk analysis. be ventilated. It also has a low U-value due to the fact that it is built from timber, which thermal conductivity, and approval in condensation risk analysis. be ventilated. It also has a low U-value due to the fact that it is built from timber, which thermal conductivity, and approval in condensation risk analysis. be ventilated. It also has a low U-value due to the fact that it is built from timber, which thermal conductivity, and approval in condensation risk analysis. be ventilated. It also has a low U-value due to the fact that it is built from timber, which thermal conductivity, and approval in condensation risk analysis. be ventilated. It also has a low U-value due to the fact that it is built from timber, which thermal conductivity, and approval in condensation risk analysis. be ventilated. It also has a low U-value due to the fact that it is built from timber, which thermal conductivity, and approval in condensation risk analysis. be ventilated. It also has a low U-value due to the fact that it is built from timber, which thermal conductivity, and approval in condensation risk analysis. be ventilated. It also has a low U-value due to the fact that it is built from timber, which thermal conductivity, and approval in condensation risk analysis. be ventilated. It also has a low U-value due to the fact that it is built from timber, which thermal conductivity, and approval in condensation risk analysis. be ventilated. It also has a low U-value due to the fact that it is built from timber, which thermal conductivity, and approval in condensation risk analysis. be ventilated. It also has a low U-value due to the fact that it is built from timber, which thermal conductivity, and approval in condensation risk analysis. be ventilated. It also has a low U-value due to the fact that it is built from timber, which thermal conductivity, and approval in condensation risk analysis. be ventilated. It also has a low U-value due to the fact that it is built from timber, which thermal conductivity, and approval in condensation risk analysis. be ventilated. It also has a low U-value due to the fact that it is built from timber, which thermal conductivity, and approval in condensation risk analysis. be ventilated. It also has a low U-value due to the fact that it is built from timber, which thermal conductivity, and approval in condensation risk analysis. be ventilated. It also has a low U-value due to the fact that it is built from timber, which thermal conductivity, and approval in condensation risk analysis. be ventilated. It also has a low U-value due to the fact that it is built from timber, which thermal conductivity, and approval in condensation risk analysis. be ventilated. It also has a low U-value due to the fact that it is built from timber, which thermal conductivity, and approval in condensation risk analysis. be ventilated. It also has a low U-value due to the fact that it is built from timber, which thermal conductivity, and approval in condensation risk analysis. be ventilated. It also has a low U-value due to the fact that it is built from timber, which thermal conductivity, and approval in condensation risk analysis. be ventilated. It also has a low U-value due to the fact that it is built from timber, which thermal conductivity, and approval in condensation risk analysis. be ventilated. It also has a low U-value due to the fact that it is built from timber, which thermal conductivity, and approval in condensation risk analysis. be ventilated. It also has a low U-value due to the fact that it is built from timber, which thermal conductivity, and approval in condensation risk analysis. be ventilated. It also has a low U-value due to the fact that it is built from timber, which thermal conductivity, and approval in condensation risk analysis. be ventilated. It also has a low U-value due to the fact that it is built from timber, which thermal conductivity, and approval in condensation risk analysis. be ventilated. It also has a low U-value due to the fact that it is built from timber, which thermal conductivity, and approval in condensation risk analysis. be ventilated. It also has a low U-value due to the fact that it is built from timber, which thermal conductivity, and approval in condensation risk analysis. be ventilated. It also has a low U-value due to the fact that it is built from timber, which thermal conductivity, and approval in condensation risk analysis. be ventilated. It also has a low U-value due to the fact that it is built from timber, which thermal conductivity, and approval in condensation risk analysis. be ventilated. It also has a low U-value due to the fact that it is built from timber, which thermal conductivity, and approval in condensation risk analysis. be ventilated. It also has a low U-value due to the fact that it is built from timber, which thermal conductivity, and approval in condensation risk analysis. be ventilated. It also has a low U-value due to the fact that it is built from timber, which thermal conductivity, and approval in condensation risk analysis. be ventilated. It also has a low U-value due to the fact that it is built from timber, which thermal conductivity, and approval in condensation risk analysis. be ventilated. It also has a low U-value due to the fact that it is built from timber, which has thermal conductivity and approval in condensation risk analysis. be ventilated. It also has a low U-value because it is built from timber, which has thermal conductivity and approval in condensation risk analysis. be ventilated. It also has a low U-value because it is built from timber, which has thermal conductivity and approval in condensation risk analysis. be ventilated. It also has a low U-value since it is built from timber, which has thermal conductivity and approval in condensation risk analysis.
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Whilst no roof installation is the same, an average Icotherm upgrade is completed within 2-3 days. The secured and weather-tight on same day in most cases.
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Icotherm roofs are fully compliant with building control regulations. You should check with your local building office to determine whether or not consent is required. As a leading timber design system, the IcothermRoof is approved by building inspectors, thus simplifying the building certificate application process.
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The addition of an Icotherm roof can make yourroom up to 70% cooler in summer and 90%warmer in winter so you will be able to comfortablyuse your room all year round! You will also be ableto enjoy the benefits of reduced noise pollution, nosolar glare and extra privacy.
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The Icotherm roof can be bespokely designed, offering customers a range of both internal and external finishes, to provide a matching solution for your home.
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A tiled roof will ensure you lose the permanent glare and hot/cold spikes. A small reduction in light will follow, but you can opt to have Velux windows fitted to compensate or choose an icoview roof with full glass panes incorporated.
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The Icotherm roof structure is strong enough to tand on, providing all Health and Safety procedures are followed. However, we recommend using a board or suitable covering to protect the tiles.