Architects: HIBINOSEKKEI, Youji no Shiro
Location: Fukushima, Fukushima Prefecture, Japan
Surface Area: 3084.57sqm
Building Area: 1161.63sqm
Site Area: 2704.36sqm
Photographs: Studio Bauhaus, Ryuji Inoue
From the architect. This project was launched as reconstruction aid business of nursery building that was destroyed by the Great East Japan Earthquake that occurred on March 11, 2011.Because after that had been forced to live in a prefabricated building for nursery with UNICEF support the earthquake, in the framework of this subsidized projects present condition restoration, it was a proposition to recover as soon as possible.
Iwaki City, the construction site is located in the southeast end of the Fukushima Prefecture, is the location of 30 a few kilometers from the Fukushima Daiichi nuclear power plant that caused the explosion, it is a place of about a few kilometers from the area, which access is regulated. Because here is an area that was affected by the Great East Japan Earthquake, and is a region next to the entrance regulatory area of the Fukushima Daiichi nuclear power plant, it has also become refuge from the cities, towns and villages that has been regulating the residence, and more than 30,000 people which is 10% of the population of the city have been flowing from the area, and it has become a region that leave still heavily impact of the earthquake.
It is not possible to play outside satisfied because radiation dose in this region there is still a certain height. Therefore, it becomes a serious problem in Iwaki city that children’s physical fitness decreased obesity reduction due to lack of exercise.In addition, such as confirmation of the radiation dose also in play outside, even mental stress faced by caregivers and parents still greater.
We wanted to solve the problem in this project by creating an environment that children can to play at their best in indoor that can play outside fullest, and caregivers also can be able to keep their eyes on children easy.
We designed a long and wide corridor that they can run at full power, and installed Sand and the pool in indoors where they can play without worrying about radiation dose. Especially the space be able to run around in a part of the life activity line called “corridor”, and doorway of the same size is lined up evenly, becomes strong aspect as part of the classroom, it is difficult to become a free shared space.Therefore, we wanted to remove dependency relationship classrooms and corridor by placing different sizes doorway randomly. In this way, it has become the place that children of all classes would be able to run around freely. In addition, large and small doorways give a fun for to go in and out, caregivers can see children running around happily while repeating in and out, it helps to resolve the lack of exercise and stress.
This geometric mesh lounger looks like a hefty piece of sculpture, but it took just 2.5 liters of material and very little energy to produce, and weighs a mere 5.5 pounds. Designer Janne Kyattanen created ‘Sofa, So Good’ in a single print on a large-format 3D printer called the ProX 950.
It took 6,000 layers of copper and chrome – each just .0099 centimeters thick – to build the lounger, which is the largest and most complex object ever created on this particular 3D printer. It’s incredibly light, but can support a person weighing up to 220 pounds.
“My exploration of optimized structures has been inspired by the anatomy of silkworm cocoons and spider webs. How can these kinds of geometries be applied to save material used in production and construction? If we are able to apply these principles of structure optimization to manufacturing, transport costs will be marginal, energy consumption will be significantly less – there is a whole range of benefits in our future that we can’t even fathom today.”
The capabilities of 3D printing seem to get more impressive by the day. A large-scale printer called the BigRep produces plastic furniture, and a Chinese company built an entire 12,000 square foot luxury mansion with an enormous 3D printer using ‘ink’ made of recycled building materials like stone, cement and fiber.