Clamped Stools by Daniel Glazman

Clamped Stools by Daniel Glazman

Furniture designers’ obsession with clamps has taken a new turn with this stool held together with one of the woodworking tools.

Clamped Stools by Daniel Glazman

The legs of the Clamped Stools by Daniel Glazman are held against the seat underside by a single clamp integrated in the third leg.

Clamped Stools by Daniel Glazman

Glazman designed the stool while studying at the Bezalel Academy of Arts and Design in Jerusalem.

Clamped Stools by Daniel Glazman

Check out some more examples of clamps used as furniture components here.

Clamped Stools by Daniel Glazman

Here’s some more information from Glazman:


My name is Daniel Glazman.  I am a young industrial designer recently graduated from the Bezalel arts and design academy in Jerusalem.

The ‘Clamped Stool’ is a three leg knock-down stool, assembled with a single clamp based joint, integrated with one of the stools legs that locks the whole construction together, giving it its strength.

Clamped Stools by Daniel Glazman

The concept of the ‘Clamped Stool’ was born after I looked at some DIY furniture and thought to myself that they are not so simple to assemble and there is more desperation than satisfaction from the process of the assembly.

Clamped Stools by Daniel Glazman

I decided to design a knock down stool that the whole construction will be held on a single joint, familiar from the field of hardware tools and this way will be easy and intuitive to assemble and fun and satisfying at the same time.

Clamped Stools by Daniel Glazman

In a process which included six models, the familiar clamp had integrated with one of the legs, resulting with a stable, contemporary designed stool.


See also:

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Clamp Desk by Coudamy
and Coulondres
A.M.L. Clamp Light by
Andreas Martin-Löf
Ad Hoc by Peter
Schäfer

Broo-ver by Ben Fursdon

Broo-ver by Ben Fursdon

New Designers 2011: product design graduate Ben Fursdon has created the Broo-ver, a broom converted into a vacuum cleaner.

Broo-ver by Ben Fursdon

Fursdon reduced the ubiquitous household machine to the minimum number of components to make it easier to clean and repair.

Broo-ver by Ben Fursdon

A clear plastic jug collects the dirt and unclips to reveal removable filters. Components are arranged in a straight line along the handle, eliminating bends in the pipe to reduce blockages.

Broo-ver by Ben Fursdon

Fursdon designed the prototype while studying at Kingston University and presented it at graduate show New Designers in London last week.

New Designers took place 6-9 July. See more stories about the work on show »

Here are some more details from Ben Fursdon:


Broo-ver

Less plastic, less parts, less hassle: a new approach to the humble vacuum cleaner.

Vacuum cleaners are a household essential, used often, abused more often and thrown away in vast numbers. Due to the complicated assembly and myriad of components, many vacuum cleaners end up at landfill when they could be repaired. Broo-ver is designed to empower the owner. Stripped down to the minimum amount of parts possible, Broo-ver promotes easy maintenance, increased level of ownership and understanding  and longer product life span.

The main concept for Broo-ver came about after a trip to the local land-fill site. After seeing the mass amount of vacuum cleaners that were being thrown away, and learning that around 8 out of 10 of them could be repaired quite simply, I decided to design a vacuum cleaner with simplicity and minimal components. My in-depth research included deconstructing numerous vacuum cleaners (modern and old), spending time with the owner of the UK’s only vacuum cleaner museum (James Brown) and generally trying to learn everything and anything about vacuum cleaners. After creating various working models which were then tested on users, the final Broo-ver shape and components developed.

The end result is an elegantly simple and user-focused vacuum cleaner, which affords the owner a better understanding of how it works and increased level of ownership.


See also:

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The Toaster Project
by Thomas Thwaites
Ultra Lead by
Georges Moanack
Folding Plug by
Min-Kyu Choi

Robots of Brixton by Kibwe Tavares

Dezeen - Robots of Brixton by Kibwe Tavares

Dezeen Screen: Robots of Brixton is a sci-fi animation by Bartlett School of Architecture graduate Kibwe Tavares in which a downtrodden robot workforce battles with police against a backdrop of dystopian architecture in scenes reminiscent of the 1981 Brixton riots in London.

Tavares, who has now set up animation and architectural imagery studio www.factoryfifteen.com, made the film as his final design project for his masters degree. Watch the movie »

Life Stand by Wojciech Nowak and Martynika Bielawska

Life Stand by Wojciech Nowak and Martynika Bielawska

This bright green pavilion by Polish students Wojciech Nowak and Martynika Bielawska provides spectator stands for a football pitch and a basketball court in Ljubljana, Slovenia.

Life Stand by Wojciech Nowak and Martynika Bielawska

The rectangular green pavilion frames two sets of cascading staircases, allowing spectators to face either direction.

Life Stand by Wojciech Nowak and Martynika Bielawska

The Life Stand pavilion was the winning design in a student competition entitled Trimo Urban Crash 2011, organised by building-materials firm Trimo.

Life Stand by Wojciech Nowak and Martynika Bielawska

More stories about pavilions on Dezeen »

Life Stand by Wojciech Nowak and Martynika Bielawska

Here are some more details from the competition organisers:


Opening of the winning project for the Trimo Urban Crash 2011

The workshop for finalists was mentored by Professor Cyril Shinga from the Chelsea College of Art and Design from the University of Arts – Trimo Research Awards were also granted.

Trimo officially handed over a public architectural installation “Life Stand” – the winning project of the Trimo Urban Crash competition for students of architecture and design which was created by Polish students, Wojciech Nowak from an architectural faculty in Gliwice, and Martynika Bielawska, from an art and design academy in Wroclaw.

The opening event was held in the centre of the residential neighbourhood of Fužine in the capital of Slovenia, Ljubljana. The event was opened by the General Manager of Trimo, Tatjana Fink, and the Deputy Mayor of Ljubljana prof. Janez Koželj. A rich accompanying program with the Dunking Devils acrobatic team, the Bast dance group, and the performance of rapper, Adam Velić, ended with a banquet at the Museum of Architecture and Design, where it was the second day of the Trimo Urban Crash workshop for students whose projects were shortlisted in this year’s competition.

The creative workshop entitled “Responsible Architecture”, which was held by Professor Cyril Shing from the Chelsea College of Arts and Design, University of Arts London, and a former associate in the architectural bureau, Zaha Hadid Architects Ltd, London, was attended by 47 finalists from 16 different countries. The three-day workshop at which participants explored the importance of sustainable thinking in architecture and design creativity came to its end one day after the opening event with joint presentations of the finished products at the symposium and one-day excursion across Slovenia.

Trimo Urban Crash

The international Trimo Urban Crash competition for students of architecture and design was, for the third time, organised by Trimo. The competition, which encourages a creative transformation of the urban environment with the help of advanced building materials and technologies, was held between 15 October 2010 and 31 January 2011. The students of architecture and design, from 56 countries from all over the world, presented their ideas and submitted a total of 363 proposals for an urban multi-purpose facility at a location in Fužine.


See also:

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Rubber House by Zeinstra
van Gelderen architecten
Trail House by
Anne Holtrop
Hiroshima Park Restrooms
by Future Studios

The Solar Sinter by Markus Kayser

The Solar Sinter by Markus Kayser

German designer Markus Kayser has built a 3D-printing machine that uses sunlight and sand to make glass objects in the desert.

The Solar Sinter by Markus Kayser

Called The Solar Sinter, the device uses a large Fresnel lens to focus a beam of sunlight, creating temperatures between 1400 and 1600 degrees Celsius.

The Solar Sinter by Markus Kayser

This is hot enough to melt silica sand and build up glass shapes, layer by layer, inside a box of sand mounted under the lens.

The Solar Sinter by Markus Kayser

Solar-powered motors move the box on an x and y axis along a computer-controlled path and a new layer of sand is sprinkled on top after each pass of the light beam.

The Solar Sinter by Markus Kayser

Light sensors track the sun as it moves across the sky and the whole machine rotates on its base to ensure the lens is always producing the optimum level of heat.

The Solar Sinter by Markus Kayser

Once all the layers have been melted into place the piece is allowed to cool and dug out from the sand box.

The Solar Sinter by Markus Kayser

Kayser developed the project while studying on the MA Design Products course at the Royal College of Art.

The Solar Sinter by Markus Kayser

Graduate exhibition Show RCA 2011 continues in London until 3 July.

Here are some more details from Kayser:


In a world increasingly concerned with questions of energy production and raw material shortages, this project explores the potential of desert manufacturing, where energy and material occur in abundance. In this experiment sunlight and sand are used as raw energy and material to produce glass objects using a 3D printing process, that combines natural energy and material with high-tech production technology. Solar-sintering aims to raise questions about the future of manufacturing and triggers dreams of the full utilisation of the production potential of the world’s most efficient energy resource – the sun. Whilst not providing definitive answers, this experiment aims to provide a point of departure for fresh thinking.

The Solar Sinter by Markus Kayser

In the deserts of the world two elements dominate – sun and sand. The former offers a vast energy source of huge potential, the latter an almost unlimited supply of silica in the form of quartz. Silicia sand when heated to melting point and allowed to cool solidifies as glass. This process of converting a powdery substance via a heating process into a solid form is known as sintering and has in recent years become a central process in design prototyping known as 3D printing or SLS (selective laser sintering). These 3D printers use laser technology to create very precise 3D objects from a variety of powdered plastics, resins and metals – the objects being the exact physical counterparts of the computer-drawn 3D designs inputted by the designer. By using the sun’s rays instead of a laser and sand instead of resins, I had the basis of an entirely new solar-powered machine and production process for making glass objects that taps into the abundant supplies of sun and sand to be found in the deserts of the world.

My first manually operated solar-sintering machine was tested in February 2011 in the Moroccan desert with encouraging results that led to the development of the current larger and fully automated computer-driven version – the Solar-Sinter. The Solar-Sinter was completed in mid-May and later that month I took this experimental machine to the Sahara desert near Siwa, Egypt, for a two week testing period. The machine and the results of these first experiments presented here represent the initial significant steps towards what I envisage as a new solar-powered production tool of great potential.

The Solar Sinter by Markus Kayser

The machine

The Solar-Sinter machine is based on the mechanical principles of a 3D printer.

A large Fresnel lens (1.4 x 1.0 metre) is positioned so that it faces the sun at all times via an electronic sun-tracking device, which moves the lens in vertical and horizontal direction and rotates the entire machine about its base throughout the day. The lens is positioned with its focal point directed at the centre of the machine and at the height of the top of the sand box where the objects will be built up layer by layer. Stepper motors drive two aluminium frames that move the sand box in the X and Y axes. Within the box is a platform that can move the vat of sand along the vertical Z axis, lowering the box a set amount at the end of each layer cycle to allow fresh sand to be loaded and levelled at the focal point.

Two photovoltaic panels provide electricity to charge a battery, which in turn drives the motors and electronics of the machine. The photovoltaic panels also act as a counterweight for the lens aided by additional weights made from bottles filled with sand.

The Solar Sinter by Markus Kayser

3D printing process with sand and sunlight

The machine is run off an electronic board and can be controlled using a keypad and an LCD screen. Computer drawn models of the objects to be produced are inputted into the machine via an SD card. These files carry the code that directs the machine to move the sand box along the X, Y coordinates at a carefully calibrated speed, whilst the lens focuses a beam of light that produces temperatures between 1400°C and 1600°C, more than enough to melt the sand. Over a number of hours, layer by layer, an object is built within the confines of the sand box, only its uppermost layer visible at any one time. When the print is completed the object is allowed to cool before being dug out of the sand box. The objects have rough sandy reverse side whilst the top surface is hard glass. The exact colour of the resulting glass will depend on the composition of the sand, different deserts producing different results. By mixing sands, combinatory colours and material qualities may be achieved.

The Solar Sinter by Markus Kayser

Machine and man

With the scenario of a single person’s utilisation of the machine in the desert, I play with ideas of how an individual could use the machine to produce objects.

In this first instance the creation of artefacts made by sunlight and sand is an act of pure experimentation and expression of ‘possibility’, but what of the future? I hope that the machine and the objects it created, stimulate debate about the vast potential of solar energy and naturally abundant materials like silica sand. These first experiments are simply an early manifestation of that potential.

The Solar Sinter by Markus Kayser

Machine and community

In the context of a desert-based community, the Solar-Sinter machine could be used to create unique artefacts and functional objects, but also act as a catalyst for solar innovation for more prosaic and immediate needs. Further development could lead to additional solar machine processes such as solar welding, cutting, bending and smelting to build up a fully functioning solar workshop.

The vibrant and global ‘open-source’ community is already active in developing software and hardware for 3D printers and could play a key role in the rapid development of these technologies. The Solar-Sinter could simply be the starting point for a variety of further applications.

The Solar Sinter by Markus Kayser

Machine and manufacture

In 1933, through the pages of ‘Modern Mechanix’ magazine, W.W. Beach was already imagining canals and “auto roads“ melted into the desert using sunlight focused through immense lenses. This fantastical large-scale approach is much closer to reality today, with ‘desert factories’ using sunlight as their power a tangible prospect. This image of a multiplicity of machines working in a natural cycle from dusk till Dawn presents a new idea of what manufacturing could be.

The objects could be anything from glass vessels to eventually the glass surfaces for photovoltaic panels that provide the factories power source… and, as Mr. Beach imagined 78 years ago, the water channels and glass roads that service them.

The Solar Sinter by Markus Kayser

Dreaming of architecture

Printing directly onto the desert floor with multiple lenses melting the sand into walls, eventually building architecture in desert environments, could also be a real prospect.

Experiments in 3D printing technologies are already reaching towards an architectural scale and it is not hard to imagine that, if partnered with the solar-sintering process demonstrated by the Solar-Sinter machine, this could indeed lead to a new desert-based architecture.


See also:

.

Solar furniture maker
by Mischer’Traxler
Virtual potter’s wheel
by Unfold
Food-printing machine
by Philips Design

London Without Bees by Ben Kirk

London Without Bees by Ben Kirk

Architecture student Ben Kirk has designed conceptual towers to replace the fast-declining bee population by shooting artificial pollinators into the air.

London Without Bees by Ben Kirk

Above: main pollinator release point in Kew Gardens

Located in Kew Gardens, a tower would fire spores covered in pollen-filled latex balloons into the air so the wind could transport them to parks across London.

London Without Bees by Ben Kirk

Above: detail of artificial pollinators

City-wide recycling buildings would suck up unused pollen spores and redistribute them via a trumpet-like funnel.

London Without Bees by Ben Kirk

Above: satellite pollinator release facility in Victoria Park

Additional off-the-shelf Garden Pollination Devices with acetate tentacles would also available for private gardens.

London Without Bees by Ben Kirk

Above: satellite pollinator release facility in Victoria Park

Kirk developed the project while studying at the University of Westminster.

London Without Bees by Ben Kirk

Above: garden pollination devices

More student projects on Dezeen »

Here are some more details from Kirk:


London Without Bees: architecture to pollinate a wilting city

What would happen if, as the worst predictions suggest, there were no bees in London? How would flowers be pollinated?

London Without Bees by Ben Kirk

Above: detail of garden pollination devices

Here a headquarters in Kew Gardens releases millions of delicate floating inseminators, like artificial spores, across the city. Locally, in places like Victoria Park in Hackney, small repair and collection points work constantly to recycle the proxy bees: architecture to pollinate a wilting city.

London Without Bees by Ben Kirk

Above: detail of garden pollination devices

Without the common honeybee, London’s gardens would be unrecognisable. We would miss their familiar buzz on a summers day, we would miss their delicious honey. Less obviously, we would miss their pollination, which allows plants to reproduce and flower in such vivid colours.

London Without Bees by Ben Kirk

Above: prototypes of artificial pollinators

The honeybee’s form is no accident. She is a conspiracy of the pollen bearing plant world, her architecture so specific to the task.

London Without Bees by Ben Kirk

Above: prototype of artificial pollinators

In response to the honeybee’s extinction, man must conceive a way to pollinate London’s parks and gardens, learning from her specficity through biomimicry.

London Without Bees by Ben Kirk

Click above for larger image

Firstly the ‘Garden Pollination Device’ fertilises London’s back gardens, shimmering like a garden chandelier as the light passes through the statically-charged perspex and acetate covered in pollen. It is designed as a flat pack product available off-the-shelf which the garden enthusiast can assemble themselves. It is suspended from the four corners of the typical London terrace back garden with tension wires, with the device hung in the middle, and predominantly relies on passive wind movement, and the vertical movement of the counter-weighted acetate tentacles, to accidentally brush past the anthers of one garden flower onto anothers stigma.

London Without Bees by Ben Kirk

Click above for larger image

Following this, a London-Wide Pollination Strategy is conceived, with delicate latex pollination devices projected into the London skies from a headquarters in Kew Gardens, and carried by the prevailing wind to the required destination.

London Without Bees by Ben Kirk

Click above for larger image

Once the pollination is complete, the proxy bees are recycled at local ‘Satellite Pollinator Release Facilities’ which strategically proliferate London.

London Without Bees by Ben Kirk

Click above for larger image

These ‘Release Facilities’ act both as workshops to recycle and reproduce the latex pollinators, and as a wind harvester, increasing the flow of air through the main funnel. This is achieved via side injection wind inlets and garden wind cowls, in order to project the proxy bees into the skies.

London Without Bees by Ben Kirk

Click above for larger image

Intentionally prosaic in external appearance, the facility in Victoria Park seamlessly merges into the urban fabric, its simple copper mesh cladding enveloping the workshop. Internally, the facility reveals a magical full height workshop with the spectacle of the ‘release’ seducing the visitor.

London Without Bees by Ben Kirk

Click above for larger image


See also:

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Northern Europe Migrants OrganisationHigh Tide Street by
James Gardener
Women at War by
Charlotte Wilson

Teahouse by Takeshi Hayatsu and Kristin Trommler

Teahouse by Takeshi Hayatsu and Kristin Trommler

Takeshi Hayatsu and Kristin Trommler of London studio 6a Architects collaborated with students at Cardiff University to build a timber-framed tea house with wattle and daub panels.

Teahouse by Takeshi Hayatsu and Kristin Trommler

The teahouse measures two by two metres, the size of two tatami mats, and was constructed with simple techniques and locally sourced materials.

Teahouse by Takeshi Hayatsu and Kristin Trommler

The students coppiced hazel wands from the local woodland and wove them into panels before coating in a mixture of soil from the building site opposite and Welsh clay.

Teahouse by Takeshi Hayatsu and Kristin Trommler

More tea houses on Dezeen »

The following is by the architects:


Teahouse

We are fascinated by small structures such as sheds and cabins. These structures take us back to “our childhood reveries of secret hideaways, built of branches and leaves or whatever is to hand; to enter our own private world.” (Cabin Fever. 1993 on the jacket.)*

Teahouse by Takeshi Hayatsu and Kristin Trommler

To explore the magic of small structures, we have built a 1:1 scale teahouse with nine dedicated first and second year architecture students from Cardiff University during two and half weeks of the Vertical Studio programme in May 2011.

Teahouse by Takeshi Hayatsu and Kristin Trommler

Tai-an

The design is based on the sixteenth century Japanese teahouse Tai-an in Myoukian temple, Kyoto. This teahouse is thought to be designed by the Japanese tea master Sen No Rikyu. It is a minimal space, only the size of two tatami mats (approx. 2m x 2m), yet forming a highly articulated and intricate space with a subtle play of light and darkness, richly textured earth wall and bamboo woven ceiling.

Teahouse by Takeshi Hayatsu and Kristin Trommler

We wanted to create something new from this Japanese masterpiece, transforming its physical presence by employing different construction methods from the original; traditional timber frame with wattle and daub and contemporary DIY techniques.

Teahouse by Takeshi Hayatsu and Kristin Trommler

Traditional timber frame

The timber frame walls were made from square section timbers following the original Tai –an configurations, and further divided into series of small square panels. As a result the expression of our teahouse became more dense and robust than the original Tai-an teahouse, which has thin walls and skinny round posts.

The walls were prefabricated off site, as in traditional timber frame buildings, enabling the whole structure to become a ‘flat pack’. The base plate was introduced to spread the load without having to excavate the ground for foundations. The frame is exposed inside and outside and infilled with wattle and daub.

Teahouse by Takeshi Hayatsu and Kristin Trommler

Wattle and daub

Wattle and daub is an earth construction method that has existed since Celtic time in Wales. It is an ancient building technique. Similar forms of construction can be seen all over the world. It was used for infill panels until late eighteenth century in traditional timber frame buildings in Wales. Woven Hazel rods (wattle) are fixed between exposed timbers, and then daubed on both sides with a mixture of soil, clay, dung and chopped straw or hemp. We wanted to work with this old technique, not because of the nostalgia to the past, but to re-engage with the materials and the landscape as a source through the act of building.

Teahouse by Takeshi Hayatsu and Kristin Trommler

DIY

Wattle and daub remains essentially a non-professional skill. It doesn’t require years of training and everyone can do it almost immediately. This was an important aspect of the project. The teahouse was built by the students who were at the very beginning of their architectural careers. It had to be built within a very short time frame. Screw fixing by a cordless drill was favoured over traditional carpentry joints. This unsophisticated workmanship gives a relaxed character to our teahouse, as opposed to the highly sophisticated and intense character of the original Tai-an teahouse.

Teahouse by Takeshi Hayatsu and Kristin Trommler

Collage of available materials

Our teahouse is a collage of available materials. A mixture of sawn, plained, treated and untreated timbers in various sizes were donated from the Western Timber Association. With permission from the Forestry Commissions of Wales, we coppiced hazels with our hands in their forest. Hundreds of hazel rods were cut, collected and brought back to the university. Neil Soils in Cardiff and Wilmot Dixon (contractor working on a construction site opposite to our site) donated soil. Ty-Mawr of Brecon, a lime company promoting sustainable products, donated clay and dung. Tools, screws and nails and corrugated bitumen roofing material were sourced from nearby DIY shops. Assembling and mixing these materials together felt like compacting the contemporary landscape into the teahouse.

Teahouse by Takeshi Hayatsu and Kristin Trommler

The process of building was physical. Loading and unloading heavy sacks of soil, carrying buckets full of mud and dung, mixing them with bare hands and feet. Nigel Gervis of Ty-Mawr gave us a recipe for the daub mix and Ian Daniel of St Fagans National Museum of Wales held a wattle and daub workshop at his Celtic village. All these experts’ knowledge and advice were vital to the project.

The resulting teahouse is an open garden pavilion. The majority of wattle panels are left without daub, allowing air and light to filter through. It invites people to sit and relax for their tea break in the garden.

Takeshi Hayatsu Kristin Trommler

Teahouse by Takeshi Hayatsu and Kristin Trommler

Team

Takeshi Hayatsu Unit leader
Kristin Trommler Unit leader

Anastasija Barkovskaja, Aida Kirikbayeva, Sarah Lionetti, Molly Macilveen, Sher Min Tan , Heather Organ, William Swithinbank, Alexa Walker, Patrick Wu

Special thanks to:

Sam Clark Professional Tutor & Year 1 Chair
Sergio Pineda Professional Tutor
Dan Tilbury Craftsman (workshop)
Carol Creasey Facilities Manager

Norman Evans Western Timber Association (timber supply)
James Mak Forestry Commission Wales (hazel coppicing)
Nigel Gervis Ty-Mawr (clay and cow dung supply)
Ian Daniel St. Fagans National Museum Wales (wattle and daub workshop)
Liam Neal Neals Soil (soil supply)
Wilmot Dixon (soil supply)


See also:

.

Tea house
by David Maštálka
Hat Tea House
by A1Architects
Paper Tea House
by Shigeru Ban

SafetyNet by Dan Watson

SafetyNet by Dan Watson

Royal College of Art student Dan Watson has designed a trawling net that filters young and endangered fish from the catch.

SafetyNet by Dan Watson

Called SatetyNet, the design uses a combination of strategically placed holes and lighting to separate fish of different ages and species.

SafetyNet by Dan Watson

The technique exploits behavioral and psychological differences between species of fish.

SafetyNet by Dan Watson

Watson created the net to tackle the huge proportion of unmarketable fish caught and thrown back into the sea dead each year.

SafetyNet by Dan Watson

The project has been nominated for the Victorinox – Time to Care competition for sustainable design.

SafetyNet by Dan Watson

Here are some more details from Dan Watson:


Created by Dan Watson, a student at the Royal College of Art in London, about to graduate with an MA in Innovation Design Engineering, the SafetyNet is an innovative trawling system that exploits the natural behaviour of different species and ages of fish to ensure that only marketable fish are caught. This negates the increasingly critical issue of ‘unmarketable’ by-catch fish that are thrown back dead into the sea, endangering both the fish themselves and the fishing industry.

SafetyNet by Dan Watson

Every year, fishermen return over 7 million tonnes of unmarketable fish, dead, to the sea. The problem is that many current fishing techniques are not selective, leading to juvenile and endangered fish being caught along with more marketable ones. The SafetyNet is a new trawling system that cuts down on the catch and subsequent discarding of juvenile and endangered fish. By exploiting fish behavioral habits and physiology the trawl separates different species and ages of fish.

SafetyNet by Dan Watson

Click above for larger image

Using the SafetyNet system, the fishing industry can become more sustainable. This will give security not only to the 40% of the world’s population who rely on fish as their primary food source, but also to the fishermen within the industry itself.


See also:

.

The Catch by
Julia Lohmann
Non-lethal mousetraps
by Roger Arque
More about animals
on Dezeen

Shadowboxing exhibition by Slowscape Collective

Shadowboxing Exhibition by Slowscape Collective

London designers Slowscape Collective created this temporary cinema at the Royal College of Art in London from faceted planes of oriented strand board.

Shadowboxing Exhibition by Slowscape Collective

Called Shadowboxing, the space was designed to host an exhibition of video work plus performances, lectures and discussions.

Shadowboxing Exhibition by Slowscape Collective

Visitors lounged on the sloping surfaces or sat on stools folded from corrugated plastic.

Shadowboxing Exhibition by Slowscape Collective

Slowscape Collective is a team of students at the college.

Shadowboxing Exhibition by Slowscape Collective

More exhibitions on Dezeen »

Shadowboxing Exhibition by Slowscape Collective

The following details are from the designers:


Shadowboxing Exhibition / Slowscape Collective

A team of postgraduate students from the Royal College of Art has designed an event installation for an exhibition at the college in London.

Shadowboxing Exhibition by Slowscape Collective

A team of postgraduate architecture and design students from the Royal College of Art has conceived of and built an adaptable 90 sqm event space for an exhibition featuring the work of well-known artists including Mariana Castillo Deball and Sean Dockray.

Shadowboxing Exhibition by Slowscape Collective

The installation, entitled Slowscape, considers the speed of visitors’ movement through the gallery and how the subtlety of built form can encourage us to pause and engage with sound and the moving image.

Shadowboxing Exhibition by Slowscape Collective

The paneled timber structure gently rises across the rectilinear gallery at a canted angle, folding up to form angled balustrades and a projection tower at the rear.

Shadowboxing Exhibition by Slowscape Collective

From this point a platform wraps around the existing columns and walls to form benches that engage otherwise overlooked areas in the open gallery space.

Shadowboxing Exhibition by Slowscape Collective

While the slight incline of the ramps encourages visitors to sit or lounge on the surface, 60 lightweight recyclable stools – each folded from a single cut sheet of fluted plastic – were also designed as a comfortable alternative for more formal events and longer film screenings.

Shadowboxing Exhibition by Slowscape Collective

The exhibition Shadowboxing finished on April 4 after a two-week period during which Slowscape played host to screenings, performances, lectures and discussions.

Shadowboxing Exhibition by Slowscape Collective

Designer: Slowscape Collective

Shadowboxing Exhibition by Slowscape Collective
Team: Stuart Franks, Christopher Kennedy, Simon Moxey, Ceri Williams, Thomas Woods

Shadowboxing Exhibition by Slowscape Collective
Location:London, England

Shadowboxing Exhibition by Slowscape Collective
Project Area: 90 sq m

Shadowboxing Exhibition by Slowscape Collective

Shadowboxing Exhibition by Slowscape Collective

Shadowboxing Exhibition by Slowscape Collective

Shadowboxing Exhibition by Slowscape Collective


See also:

.

Duplex House in Tokito by
Hidehiro Fukuda Architect
The Cubby House by
Edwards Moore
Victorian Grandfather Chair by Adam Rowe

Christmas Tree Sledge by Tom Hatfield

Christmas Tree Sledge by Tom Hatfield

Still not sure what to do with your left-over Christmas tree? Royal College of Art student Tom Hatfield has turned a few of them into a sledge.

Christmas Tree Sledge by Tom Hatfield

Made from discarded trees Hatfield found around London, the sledge was made using a traditional woodworking technique know as bodging, where wood is worked ‘green’, without drying or seasoning first.

Christmas Tree Sledge by Tom Hatfield

See also: Christmas Tree Furniture by Fabien Cappello (July 2009)

Christmas Tree Sledge by Tom Hatfield

See more bodging on Dezeen here.

Here’s a little text from Hatfield:


Christmas Tree sledge

This Sledge is made from Christmas trees found in on the streets of London. With roughly 1.7 million trees bought for this recent Christmas period, these two-week trees are just discarded every year.  With snow in London becoming a more frequent occurrence, it seemed an appropriate item to use for the season.

Christmas Tree Sledge by Tom Hatfield

Using the primitive skills of a bodger, it opens up an inventive feeling of seeing the resources that are around us. People are not as resourceful as they once where. This sledge can give an excitement to a process that can give confidence that appeals to our creative side.


See also:

.

Bodging Milano at
Designersblock
Inserper-able by
Rolf Sachs
Christmas Tree Furniture
by Fabien Cappello