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TVD process. TVD process. Features & Benefits. Increases productivity and shortens the erection time. Lowers non-productive work (forms and shuttering). Heavy building machines are unnecessary. Diminishes need for qualified workers. High thermal and sound insulation qualities.
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Features & Benefits • Increases productivity and shortens the erection time. • Lowers non-productive work (forms and shuttering). • Heavy building machines are unnecessary. • Diminishes need for qualified workers. • High thermal and sound insulation qualities. • High seismic resistance. • High quality building with simple maintenance. • Lower building costs for up to 30%.
TVD safety and quality assuranceStructural tests and verification calculations • Faculty of Civil Engineering, Mostar,BH • Institute of Civil Engineering,Osijek,HR
TVD design-3 • Items supplied for TVD design • L.1. Computer hardware consisting of: • -two Power Macintosh 9100 as a work station with 20” monitor; • -two laser HP printers; • -two high speed modem for communication with the Office; • -one flat-bed scanner; • -one A0 Ink-jet plotter; • -four bureau tables and chairs • L.2. Computer software consisting of: • -two sets of TVD software packages for design, calculation, and supervision of building. • For TVD designa design team consists of: • - one architect, one engineer and two technicians .
TVD panel production line One production line produces enough TVD panels for 80.000m2 of buildings.
TVD panel production line-1Axonometric view of production line and storage area
TVD panel production line-2Samples of production’s line machines
TVD panel production line-3 • Items supplied for TVD panel production line: • In its minimal configuration with a capacity of ca. 250.000,00m2 of finished TVD panels. • Item A: • (a) wire uncoiling reels for drawn wire consisting of: • wire rod holding fingers to hold wire bar coils for vertical pay-off; • one machine for bar straightening and cutting at required length; • one machine for bar bending. • (b) adjustment of reinforcement meshes; • one machine for mesh cutting; • Item B: • (a) one machine for steel connection elements • consisting of an hydraulic press and forming tiles; • (b) one machine for Polyethylene connection elements • consisting of the PE production machine and forming tiles.
TVD panel production line-4 • Item C: • (a) one machine for Polystyrene block cutting • consisting of a fixed support, mobile carriage, insulated support, current generator and monitoring electric board. • (b) two machines for Polystyrene punching • Punching of the polystyrene foam blocks at the size of panel so that they are placed in vertical position and hydraulically pressed against preheated thermo-spears placed in the positions required for the fixing of the connection elements. Thermo-spears can have variable positions in order to suit the particular structural need. • Item D: • (a) three machines for assembling of panels • Panel assembling is done in a vertical position so that reinforcement meshes and thermo elements are placed in their final position. Connection elements are then fixed manually in the particular position.
TVD panel production line-5 • Item E: • (a) one machine for packing finished panels • Stacked finished panels (6 panels in a stack) are placed on the machine and tied together with stripes for easier manipulation and transportation • Item F: • (a) two fork-lift trucks (10 kN) • Item G: • (a) one set of tools for electrical and mechanical maintenance • hand drill with D=13mm • set of screw keys and tools for mechanical maintenance • set of accessories and instruments for electrical maintenance • arch welder for electrodes • column drill with D=16mm • column grinding wheel • working bench and two shelves
TVD panel production line-6 • Optional items: • Item H: • Complete automation of production and storage lines • To connect production to storage lines with steel frames and guiding rails to enable easier, faster and semi-automatic transport of the elements. • Item I: • Polystyrene foam unit • To transform polystyrene granulates into foam blocks. • Item J: • Electrowelded mesh unit • To produce electrowelded reinforcement meshes. • Production building • For the production line in its minimal configuration (with the possibility of later additions), the building should be around 1650m2, i.e. 27m large x 60m long and 6m high; a storage surface place of ca. 650m2 would also be recommended to stock the panels.
TVD building-4 • Items supplied for TVD building: • Corresponding to the estimated need of one 8 hours/day shift. • Item K: • 1.(*) two concrete mixers for concrete preparation • 2.(*) two “gun” machines for spraying of concrete • 3.(*) set of accessories for the montage consisting of: • four electric circular saws for cutting out of openings; • two electric hammers; • four scissors for reinforcement cutting; • two sets of accessories for panel and slab placement: • two sets of accessories for concrete works consisting of: shovels, buckets, wheel barrows; • two sets of accessories for wall finishing consisting of: trowels, floats, hand levels, templates and finishing lineals; • two sets of accessories consisting of: hammer, sledge hammer, chisel, crow bar, pliers.
TVD and other building methodsCIB World Building Congress 1998, Gavle, Sweden
TVD process The complete TVD process system package consists of: A. TVD design comprising a 5 year licence, know-how and software (Item L) B.TVD panel production line in its minimal configuration (which could be enlarged to suit particular needs). Following option(s) can be added: Complete automation of the production line; Electrowelded mesh unit; Polystyrene foam unit. C. TVD building comprising the equipment needed for building process (Item K), technologies for concrete preparation and building erection. D. One year technical assistance comprising control of equipment, training of staff for TVD design, TVD panel production and TVD building), as well as supervision of a site. E. Preliminary design or adaptation of a project for every situation will be dealt separately.
TVD processSustainable building system for the next century • Info: sigmund@most.gfos.hr • Prof. dr. sc. Vladimir Sigmund, BCE • Faculty of Civil Engineering • Drinska 16a, 31000 Osijek • Croatia