In all three projects the joint between manual-imprecise construction and digital-precise prefabrication became the area of richest invention (Figure 1). However, at the Loblolly House the question of prefabrication and digital modeling was tested far more extensively: thermal systems were embedded into prefabricated floor cartridges, entire program elements – a library, kitchen, and bathroom were proposed as prefabricated systems of self-contained volume and infrastructure which were then inserted into the on-site framework. At a second project, a similar wood rainscreen strategy was used. Besides being a prefabricated façade system, the rainscreen detailing became a formal system for organizing many other scales of the project including: site systems, thermal systems, daylighting systems, enclosure, and ornament. The compressed schedule drove the design of an enclosure system which incorporated performative elements in similar categories to SmartWrap: insulation, an electrical system, view, daylighting, and a rainscreen. One of the most important principles, prefabrication, was explored in a fast-track construction project at the Sidwell Friends School. ¶ While they have yet to wrap a building with SmartWrap, KieranTimberlake have utilized a number of the construction principles and digital tools tested in the SmartWrap exhibit. SmartWrap was to be a digitally prefabricated wall system with embedded technology. One product of this research was a speculative wall system assembled for a museum exhibit. Over the past several years, KieranTimberlake Associates in Philadelphia has undertaken a path of research focusing on problems of contemporary construction systems and practices.
This paper considers the problem of detailing joints between manual and digital construction by tracking the provocations of KieranTimberlake’s SmartWrap research and the evolution of that knowledge into practical architectural instruments that can be deployed into more traditional construction projects. They provided these photos to demonstrate the fabrication process.Silicon + Skin: Biological Processes and Computation, Minneapolis 16-19 October 2008, 370-375 in Philadelphia to fabricate 74 panels to enclose Cellophane House™. Inteligentno upravljanje na dotik na digitalnem zaslonu.
1500mm irina mize za ovijanje, 2000mm viina pakiranja, najveja tea tovora: 1500KG. You can take the help of your RM to compare the quotes and finalise the best deal. Tribarvni LED varnostni indikator, IoT modul. Enter the Required Details & We Will Connect With You Soon. Enostaven za uporabo in enostaven za upravljaje. We worked with Universal Services Associates, Inc. Ugoden in poceni stroj za ovijanje palet. A vented cavity between the two layers functions to trap heat in the winter and vent it in the summer, reducing the amount of energy required to heat and cool the house. An inner layer of 3M solar heat and UV-blocking film lets daylight in while deflecting solar gain. This next generation of SmartWrap™ has an outer layer of transparent PET, with thin-film photovoltaic cells by PowerFilm adhered to harness solar energy. When we designed Cellophane House™, we took the opportunity to refine and advance our original concept for SmartWrap™ and create a multi-layered wall that could generate energy while controlling the interior environment of a building. We collaborated with DuPont and ILC Dover to engineer and fabricate a working prototype, which was displayed at the Cooper-Hewitt National Design Museum. To develop the material, we pursued emerging systems including organic LED displays, phase change materials, organic photovoltaics, heating elements, and a polyethylene terephthalate (PET) substrate upon which the technology could be printed.
Fabricated in just-in-time sequences, each panel consists of two Bosch frames, with a combination of plain PET, PET with photovoltaics, and IR blocking material from 3M applied to both sides of the frame.Ĭan we create a material that combines the ideal functions of a building envelope into a single product? We began exploring this question with SmartWrap™, a building envelope that has the potential to generate energy, control climate, and provide lighting and information display on a single printed substrate.