Eliminating thermal bridges is one of the most important measures for reducing energy losses. For a better indoor climate and to prevent mold growth, it is worth taking a closer look at typical weak points for thermal bridges such as window connections or roller shutter boxes. If heat is actually being lost at these points, the insulation should be optimized as quickly as possible. Front-Mounted Roller Shutters or modern Top-Mounted Roller Shutters with thermal insulation properties are the ideal solution for eliminating thermal bridges at windows.
Would you like advice on a suitable roller shutter system? Then contact a ROMA specialist partner in your area.
Increased energy consumption and the risk of mold are a common consequence of thermal bridges.
Frequent weak points: Window connections, roller shutter boxes, balcony slabs.
Insulation measures and structural optimizations eliminate thermal bridges.
Roller Shutters improve the insulation in front of the window and prevent thermal bridges.
A thermal bridge - also known colloquially as a cold bridge - is an area in the building envelope where heat escapes to the outside faster than in adjacent areas. It can be caused by changes in material or inadequate insulation and is a weak point in the building structure. Thermal bridges are a particular problem in the cold months, as the heat from the heated interior is lost here almost unhindered.
In principle, thermal bridges can occur in all parts of the building envelope if there is insufficient insulation. Thermal bridges are particularly common in old buildings. In modern buildings, however, external walls are often seamlessly insulated, which means that very little heat escapes. Therefore, the areas where this insulation is interrupted are primarily affected. These include
Window reveals and connections
Wall-ceiling and wall-floor transitions
Roller shutter boxes in the façade
Insufficiently insulated balcony slabs
Connection points on roofs or foundations
Thermal bridges at the window lead to the highest heat and energy losses. This is because, in addition to shutter boxes and connection points, the glazing itself is often not sufficiently insulated.
Thermal bridges are usually only noticed in the colder months. As heat is constantly lost to the outside, rooms have to be heated for much longer until a comfortable room temperature is reached. However, the consequences are not just increased heating costs. Anyone who leaves thermal bridges untreated in the long term will be confronted with numerous problems:
Energy losses: heat escapes to the outside more quickly.
Mold growth: surface temperatures fall and humidity condenses
Structural damage: Permanent moisture can damage the building fabric.
Less living comfort: draughts and cold surfaces lead to discomfort.
Mold growth and structural damage caused by moisture are potentially harmful to health and require costly repairs. For this reason, thermal bridges should be retroactively removed in existing buildings and avoided in advance in new buildings.
In new buildings, thermal bridges can be prevented with measures such as professional insulation using a thermal insulation composite system, windows with a low U-value (thermal transmittance coefficient) or Top-Mounted Roller Shutters. However, thermal bridges can also be retroactively eliminated in existing buildings. The following aspects should be considered for both approaches:
First of all, weak points should be identified using thermographic images or a building physics analysis. This ensures that no thermal bridges are overlooked. Once all critical points in the building envelope have been identified, these can be eliminated either by retrofitting insulation measures or new building components.
Targeted insulation helps to eliminate thermal bridges. Insulation can usually be retrofitted to window reveals or wall connections without any problems. It is important that the measures are planned and implemented in such a way that the building components remain permeable to water . Otherwise, moisture build-up and mold growth can occur despite the insulation.
It makes sense to replace components, especially in the case of thermal bridges on windows or old roller shutter boxes. Windows with heat-insulating glazing - i.e. a low U-value - and modern roller shutter systems are the solution here.
Energy-efficient renovation of windows
When integrated into a Smart Home system, Roller Shutters can be moved based on time or sensors and optimally adapted to the position of the sun, weather and time of day. This prevents heat loss at night and optimizes heat input during the day. Roller shutter systems from ROMA are compatible with established Smart Home solutions such as Somfy TaHoma, Loxone, elero or KNX and thus make an effective contribution to saving energy.
If you want to eliminate thermal bridges, you should focus in particular on heat loss at the window, as this is where a lot of heat escapes through glazing, roller shutter boxes and window reveals. With modern roller shutter systems, these thermal bridges can be prevented without major structural measures. Roller shutters not only protect against excessive solar radiation and contribute to thermal insulation in summer, but also improve heat loss in winter. Lowered roller shutter curtains have an insulating effect and protect the entire window surface from thermal bridges.
With the right system, thermal bridges at the roller shutter box are also no longer a problem. Top-Mounted Roller Shutters from ROMA with insulated roller shutter boxes are installed directly above the window in the building envelope, creating seamless insulation. Front-Mounted Roller Shutters from ROMA are an easily retrofittable alternative. Thanks to their installation in front of the window, the building envelope is not penetrated so that no thermal bridges form at the roller shutter box.
If you have any further questions about thermal insulation with Roller Shutters, our specialist partners will be happy to assist you.
Thermal bridges are areas in the building envelope where heat escapes to the outside more quickly. They often occur at windows or parts of the building with poor insulation. Modern Top-Mounted Roller Shutters with integrated insulation prevent the formation of such weak points. Front-Mounted Roller Shutters are installed in front of the building envelope so that the building envelope is not penetrated.
Typical characteristics of thermal bridges are cooler wall surfaces, mold growth and increased heating costs. Thermography can be used to determine exactly where heat is being lost.
The connections between the window frame and masonry are often the reason for thermal bridges at the window. High heat losses occur particularly through poorly insulated roller shutter boxes.
Yes, e.g. by insulating the critical areas or replacing old windows and roller shutter boxes. Roller Shutters lowered in winter additionally support the insulation of the window area.