Wood frame construction
Wooden element construction is similar to modular wooden construction in that prefabricated elements are delivered to the construction site and then assembled on site. However, in this case, individual walls, ceilings, and floors are prefabricated. This makes it much easier to adapt the project to the specific conditions on the site.
The advantages of both timber technologies are largely the same. Timber frame construction is also CO₂-neutral: as it grows, wood absorbs carbon dioxide, ensuring a positive CO₂ balance and reducing the impact on the environment.
Other advantages include short construction times, reduced emissions directly at the construction site, and cost-effectiveness thanks to the use of a renewable resource—wood. In addition, buildings constructed using wooden element or modular construction technology are easy to extend and expand.
Frame construction
In frame construction, the foundation of the building is a load-bearing structure made of posts and beams that supports all loads. It is this frame that forms the so-called "skeletal" core of the building. The walls in such a system are not load-bearing and serve to divide the space or provide fencing.
Frame technology has a number of advantages. It allows for flexible room planning, as interior walls can be easily changed or removed without compromising the stability of the building. In addition, this technology allows for large window areas and open floor plans, which is ideal for modern architectural trends.
Frame construction is also efficient in terms of time: load-bearing elements are usually manufactured in advance and quickly assembled on the construction site. Such buildings are easy to adapt to future needs — to expand or redesign.
In conclusion, frame construction is a flexible and efficient technology that stands out for its adaptability and ability to create modern, open spatial concepts.
TS3 (Timber Structures 3.0)
TS3 (Timber Structures 3.0) is an innovative technology in the field of timber construction. It allows large-format timber panels to be joined without visible joints, opening up new possibilities for creating continuous and load-bearing timber floors and roofs of large dimensions.
A key element of TS3 technology is a special adhesive system at the panel joints. This creates a continuous, uniform surface that is both aesthetically appealing and structurally sound. This approach allows for the construction of wooden floors and roofs without additional support structures and without visible joints.
The advantages of TS3 are multifaceted. In particular, the technology significantly expands architectural freedom, allowing the creation of large open spaces without structural obstacles. In addition, it increases the efficiency of material use and promotes sustainable construction, as wood is a renewable and CO₂-neutral resource.
Overall, TS3 is a progressive solution for modern timber construction. The technology enables the creation of large, seamless timber surfaces and combines aesthetic and structural advantages, expanding the possibilities for timber use and supporting the development of sustainable construction projects.
