INDUSTRIALIZED FRAMING – ENGINEERED = REDUCED CONSUMPTION OF WOODEN MATERIAL AND LABOR!
Engineered Industrialized Frame is also called space frame. It is made in a wooden lattice beam system in specialized production units, which use dedicated design programs and modern wood joining technologies, respectively multi-nail plate or Posi Strut assembly elements, applied with the help of hydraulic presses. The consumption of wood material for the space frame on the covering surface is between 0.06-0.075m2/m2, compared to 0.15-0.2m2/m2 for the traditional frame. It is a light, slender frame that allows for large spans, up to 35 m, without intermediate supports. Being light in weight, this type of frame contributes substantially to reducing the amounts of iron and concrete in the foundation and concrete belts. The engineered frame allows the weight to be evenly distributed, both on the belts and on the concrete slab.
ADVANTAGES:
➜ Wood material losses do not exceed 5%;
➜ Execution time reduced by up to 50% compared to the classic frame;
➜ The structural wood is resistance class C24, with a maximum humidity of 18%;
➜ Modern, CE-certified fasteners replace outdated traditional fasteners (the classic carpenter's wire whisks, trowels, and nails).
INDUSTRIALIZED FRAME
INDUSTRIALIZED SHEETING – FAP (PREFABRICATED WOODEN ROOF TREE): 90% IN THE WORKSHOP, 10% ON SITE
➜ Wooden structures made with Wood Welding technology comply with the highest quality and resistance standards, according to the regulations in force. The production of wooden structures in the factory optimizes the materials used and significantly reduces the final costs.
➜ The industrialized frame is also called an engineering frame, because all the details and wooden structural elements are calculated individually, depending on the climatic zone (snow, wind), the permanent load (type of covering) and the class of exploitation of the construction.
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ADVANTAGES OF INDUSTRIALIZED SARPANTA
➜ Resistant, safe, light, slender, more spacious than the classic frame (it does not have poppets, wedges, cosorobes and pillars);
➜ Superior quality-price ratio compared to the traditional (carpentry) frame;
➜ The final cost is known from the design stage;
➜ It can successfully replace the reinforced concrete slab of the last level, where the solution allows; the lower sole of the beam with the lattice constitutes the floor of the construction, being calculated according to the permanent and useful loads;
➜ It is executed in the factory or workshop, from resinous timber, resistance class C24, with a maximum humidity of 18%, according to the DDE project, approved and verified by specialized structural engineers;
➜ Reduced execution and assembly time;
➜ You pay what you order, losses and waste of wood material are reduced to the maximum;
➜ The materials used and the production process of the project strictly comply with the MiTek prescriptions and the European standard EN 14250 regarding the production of prefabricated wooden structures assembled with multi-nail plates.
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MANUFACTURING, HANDLING AND ASSEMBLY
LESS ON THE SITE - MORE IN THE WORKSHOP
➜ The cutting of wooden elements is carried out in accordance with the technical production drawings, with the help of CNC or semi-automatic circulars;
➜ The jointing of the beam nodes with the lattice is done with multi-nail plates fixed by pressing (not with a hammer), with hydraulic presses, minimum pressing force 20 tons;
➜ The trusses (lattice beams) are designed and prefabricated taking into account the maximum transport dimensions and access conditions to the construction site;
➜ Assembly - handling can be done manually for trusses with an opening of up to 15m (approx. 120 Kg/4 workers), over 15 m with the help of lifting systems or more workers, as appropriate.
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ADVANTAGES FOR BUILDERS
➜ Reduced assembly time;
➜ Make big profits in a short time;
➜ Low number of workers (carpenters, assemblers, etc.);
➜ Zero time allocated to the supply of wood material;
➜ The guarantee that after installation on the site the surfaces are identical to those in the DDE project, without additional quantities for covers, blinds, guards, etc.;
➜ Security is eliminated from the construction site, the trusses are bulky, difficult to remove compared to softwood lumber (beams, poplars, rafters, etc.).
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ADVANTAGES FOR DESIGNERS
➜ Reduced design time;
➜ Technical support and consultancy in the development of complex projects;
➜ Guarantee of a job well done by the manufacturer and fitter;
➜ The framework executed 100% in accordance with the architectural project;
➜ Execution and assembly details are strictly respected by the builder (the prefabricated frame is assembled like LEGO pieces);
➜ Manufacturers can offer the technical execution project free of charge, if the framework is executed industrially.
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ADVANTAGES FOR THE END CUSTOMER
➜ Quality, safety and resistance to earthquakes up to 8 degrees Richter;
➜ The customer pays for the order, not the theft or loss of wood material from the site;
➜ Savings in materials for the dimensioning of the foundation and the structure of the walls (concrete and reinforced concrete, excavation, masonry, belts, etc.) as the industrialized frames are lighter by approx. 50% compared to carpentry, due to the use of optimal wood sections (thickness, width);
➜ More living space (in the case of attics) or storage, industrialized frames do not have poppets, pillars, seats, etc.;
➜ Competitive price compared to the carpentry frame, provided that all the classic details of execution and assembly are respected (tearing, kerning, bolting, splicing, etc.), and the wood is dried to a maximum of 18%.
ENGINEERED INDUSTRIALIZED FRAMING IS THE GUARANTEE OF A JOB WELL DONE! MANUFACTURERS AND FITTERS HAVE A COMMON GOAL, THE SATISFACTION OF THE END CUSTOMER!
WE ACHIEVE THE IMPOSSIBLE
ALL STRUCTURAL FORMS ARE POSSIBLE
Structural design and calculation programs, together with Wood Welding manufacturing technology, offer flexibility to architects and manufacturers, in the realization of any form of framework, with the help of lattice beams (FAP-prefabricated roof trusses):
➜ In an inclined plane – one or more waters;
➜ In a horizontal terrace-type plan;
➜ Curved frame;
➜ Wooden towers and domes;
➜ Geodesic domes;
➜ Formwork for road infrastructure, bridges, passages, subway tunnels, tunnels, etc.
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