Project's IaaC - Fab Lab House
![Unloading one of the biggest pieces [SH].jpg](http://www.iaac.net/archivos/project/unloading-one-of-the-biggest-p.jpg)
![Unloading first piece [SH].jpg](http://www.iaac.net/archivos/project/unloading-first-piece-sh.jpg)
![Structure team standing in front of the track from Germany [SH].jpg](http://www.iaac.net/archivos/project/structure-team-standing-in-fro.jpg)
![Unloaded pieces [SH].jpg](http://www.iaac.net/archivos/project/unloaded-pieces-sh.jpg)
![Shopbot training [SH].jpg](http://www.iaac.net/archivos/project/shopbot-training-sh.jpg)
![Facade study [SH].jpg](http://www.iaac.net/archivos/project/facade-study-sh.jpg)
![Ramp study model [SH].jpg](http://www.iaac.net/archivos/project/ramp-study-model-sh.jpg)
![Landscape study [SH].jpg](http://www.iaac.net/archivos/project/landscape-study-sh.jpg)
![Final Structure model assembly [SH].jpg](http://www.iaac.net/archivos/project/final-structure-model-assembly.jpg)
![Workshop starts with introduction of the scope of work by IaaC director Vicente Guallart [SH].jpg](http://www.iaac.net/archivos/project/workshop-starts-with-introduct.jpg)
![IaaC master students with 1-9 scale model [SH].jpg](http://www.iaac.net/archivos/project/iaac-master-students-with-1-9-.jpg)
![Packing for transportation [SH].jpg](http://www.iaac.net/archivos/project/packing-for-transportation-sh.jpg)
![One of structural Ribs [SH].jpg](http://www.iaac.net/archivos/project/one-of-structural-ribs-sh.jpg)
![45mm LVL fabrication process [SH].jpg](http://www.iaac.net/archivos/project/45mm-lvl-fabrication-process-s.jpg)
![Cut out structural pieces [SH].jpg](http://www.iaac.net/archivos/project/cut-out-structural-pieces-sh.jpg)
![KUKA cutting LVL panel [SH].jpg](http://www.iaac.net/archivos/project/kuka-cutting-lvl-panel-sh.jpg)
![Mock up with curvable plywood [SH].jpg](http://www.iaac.net/archivos/project/mock-up-with-curvable-plywood-.jpg)
![Researcher Daisuke Nagatomo and Master student Emil Burulyanov installing curvable plywood [SH].jpg](http://www.iaac.net/archivos/project/researcher-daisuke-nagatomo-an.jpg)
![Interior [SH].jpg](http://www.iaac.net/archivos/project/interior-sh.jpg)
![Research director Daniel Ibanez, researcher Minnie Jan and Finnforest Ulrich Müller checking CNC cut LVL piece [Apr10].jpg](http://www.iaac.net/archivos/project/research-director-daniel-ibane-2.jpg)
![Research director Daniel Ibanez, researcher Daisuke Nagatomo, and Finnforest Ulrich Müller finalize cutting drawings [Apr10].jpg](http://www.iaac.net/archivos/project/research-director-daniel-ibane-1.jpg)
![Final Structure visualization [Apr10].jpg](http://www.iaac.net/archivos/project/final-structure-visualization-.jpg)
![Finnforest Merk factory [Apr10].jpg](http://www.iaac.net/archivos/project/finnforest-merk-factory-apr10.jpg)
![LVL panels reserved for FabLab House [Apr10].jpg](http://www.iaac.net/archivos/project/lvl-panels-reserved-for-fablab.jpg)
![Finnforest Milling Machine [Apr10].jpg](http://www.iaac.net/archivos/project/finnforest-milling-machine-apr.jpg)
![Research director Daniel Ibanez and researcher Daisuke Nagatomo checking structural pieces cut by Finnforest [Apr10].jpg](http://www.iaac.net/archivos/project/research-director-daniel-ibane.jpg)
![Structure team member Javier Palacios assembles the structure pieces [SHF].jpg](http://www.iaac.net/archivos/project/structure-team-member-javier-p.jpg)
![Strcture team assembles the test model. (Jeffery Clarke, Hristo Topchiev, Javier Palacios, Jun Huang) [SHF].jpg](http://www.iaac.net/archivos/project/strcture-team-assembles-the-te.jpg)
![Facade team member Fabio Lopez test cutting the 1 to 1 model [SHF].jpg](http://www.iaac.net/archivos/project/facade-team-member-fabio-lopez.jpg)
![Researcher Daisuke Nagatomo explains the procesure of laser cutting [SHF].jpg](http://www.iaac.net/archivos/project/researcher-daisuke-nagatomo-ex.jpg)
![Faculty Dani Ibanez shows the strategy of locating the Solar House inside of IaaC [SHF].jpg](http://www.iaac.net/archivos/project/faculty-dani-ibanez-shows-the-.jpg)
![IaaC Master students getting ready for the fabrication of Solar House [SHF].jpg](http://www.iaac.net/archivos/project/iaac-master-students-getting-r.jpg)
![IaaC students receive detail information from director Vicente Guallart [SHF].jpg](http://www.iaac.net/archivos/project/iaac-students-receive-detail-i.jpg)
![Testing with 1-1 mock-up [Solar House].jpg](http://www.iaac.net/archivos/project/testing-with-1-1-mock-up-solar.jpg)
![Preparation of membrane [01].jpg](http://www.iaac.net/archivos/project/preparation-of-membrane-01.jpg)
3D structural model [SHF].png- assembly process [SHF].png
- exploded structure [SHF].png
- transportation simulation [SHF].png
3D structural model [SHF].png
assembly process [SHF].png
exploded structure [SHF].png
transportation simulation [SHF].png-
Fab Lab House
- Fab Labs
- Solar Decathlon Europe
- La primera casa solar de Barcelona pone su primera piedra
- Barcelona construye una casa solar autosuficiente y capaz de ceder energía
- Al sol que más ahorra Arranca la carrera para construir la vivienda autosuficiente
Fab Lab House
The Fab Lab House Project (www.fablabhouse.com) lead by the Institute for Advanced Architecture of Catalonia (www.iaac.net), the Center for Bit and Atoms del MIT and a world wide network of fab labs (fab.cba.mit.edu) have been chosen as one of participants in Solar Decathlon Europe competition (www.sdeurope.org), which will take place in Madrid in June 2010.
The prototype is understood as a result of the negotiated consensus of the sum. More than a closed design, more than a description of an object, the prototype defined here is presented as a combination of a series of intentional strategies, and the realization of a series of affirmations that we intend to defend.
Basic conditions of the proposal:
The first argument is based on a distinct industrialization model. Set against the industrialization of mass production, digital design techniques and the new technologies of personalized fabrication, CAD CAM and that which is closely linked between design and fabrication, we offer them vast possibilities of adaptation between real needs and specific answers. It is based on this point that we propose the international network of Fab Labs as a base of production for prototype development.
The second argument is based on the extended definition of technological efficiency. We intend to add to the concept of efficiency a factor of accessibility and apply these values to all the design categories of the prototype, from the structure to the finishes. We propose to measure, for example, the efficiency of a photo-sensitive material not by its energy efficacy, but by the relation of its price, availability, complexity /technical opacity, possibilities of use, adaptation transformation assembly facility and maintenance… and its energy collecting efficiency. Through this change of viewpoint we intend to make the user an agent of participation and a transformer of the space they inhabit.
The third, the emergent logic of the component and distribution of intelligence. Set against the opposing sum of elements originating from different technical fields, set against the typical "box + panel", we argue in favour of the distribution of intelligence. Each component of the prototype contains the same technical, energy, and structural level, etc… as the rest. The logic, in its entirety is found in each of the parts and not in it’s entirety.
Finally, the prototype presented here is the result of an open evaluation process of different prototype options, subjected to formal criteria as well as constructive logics and energy efficiency in which all of the agents that have actively participated will form part of their subsequent development.
Download PDF Presentation of IaaC (3.4MB)