Wooden element construction
Timber element construction is similar to modular timber construction in that prefabricated parts are also delivered and simply assembled on site. In timber element construction, however, the individual walls, ceilings and floors are prefabricated. This makes it easier to make adjustments to the conditions on site.
In addition, the advantages of the two timber construction methods are similar. Wood element construction also scores with its CO2 neutrality. The natural building material bindsCO2 during its growth, which contributes to a positiveCO2 balance and protects the environment.
Further advantages are the short construction time, the reduced emissions on the construction site and the lower construction costs thanks to the use of wood as a renewable raw material. In addition, buildings constructed using timber element or timber module construction can be flexibly extended and expanded.
A specific advantage of timber element construction is the architectural freedom made possible by the lack of fixed grid dimensions. This allows architects and clients to design the building flexibly and creatively.
In summary, modular timber construction and timber element construction areCO2-neutral, cost-efficient and flexible construction methods that impress with short construction times and minimal emissions on the building site. These modern solutions combine sustainability with a high degree of architectural freedom.
Skeleton construction
In skeleton construction, the building mainly consists of a supporting structure of columns and beams that carry the loads. This supporting structure forms the eponymous "skeleton" of the building. In skeleton construction, the walls are not load-bearing and only serve as room partitions or cladding.
The skeleton construction method offers various advantages: it enables a flexible room layout, as the interior walls can be easily changed or removed without compromising the stability of the building. In addition, larger window areas and open floor plans can be realized, which is ideal for the bright, open spaces of modern architectural trends.
Skeleton construction also scores points for efficiency in terms of construction time. The load-bearing elements are usually prefabricated and then assembled on site in a short space of time. In addition, skeleton buildings can be extended or redesigned relatively easily. This makes them adaptable to future requirements.
In summary, skeleton construction is a flexible, efficient construction method and is characterized by its adaptability and the possibility of realizing modern, open room concepts.
TS3
TS3 (Timber Structures 3.0) is an innovative technology in timber construction. The construction method makes it possible to join large wooden panels without visible joints. This technology is revolutionizing timber construction, as it allows the construction of large-scale, load-bearing timber ceilings and roofs .
The key to TS3 technology lies in a special bonding technique at the butt joints of the wooden panels. This creates a continuous, homogeneous surface that is both aesthetically pleasing and structurally stable. This method makes it possible to create wooden ceilings and roofs without additional support structures or visible joints.
The advantages of TS3 are manifold. For example, the construction method increases architectural freedom, as large, open spaces can be designed without disruptive interruptions. This technology also increases material efficiency and sustainability in construction, as wood is a renewable andCO2-neutral building material.
Overall, TS3 stands out as an advanced solution for modern timber construction. The construction method enables large, jointless timber surfaces and thus offers both aesthetic and structural advantages. In this way, it also helps to expand the application possibilities of wood in the construction industry and promote sustainable building projects.
