Acle Bridge Visitor Centre Competition - Norfolk Broads

We recently entered into a competition to design the new visitor's centre at Acle Bridge, in the Norfolk Broads. We were given the task of designing a canal side visitor centre that provided cafe space, facilities for mooring boats, an education space and an exhibition area in order to educate visitors about the history of the Norfolk Broads and the importance of water. The building was also to be designed in order to take advantage of the surrounding landscape, the largest protected wet land in the UK. 

We approached this project, designing what we hoped had the ability to be a landmark building for the Norfolk Broads Authority. Being in such a significant part of the country we took inspiration from one of the greatest pieces of architecture found in the Norfolk Broads, the wherry boat. We wanted to capture the wind filled sails that can be seen cutting through the reeds of the Norfolk broads in a solidified structure but in an abstracted manner. Due to the organic shapes created by the sails we thought it would be counter productive to begin with computer modelling. Instead, we started our

investigation using craft rock to create organic 'sail like' shapes. We were then able to establish numerous roofing schemes that we could use in the design of our building.

The result, we believe, is one that answers the brief while delivering a unique piece of architecture and in some way a part of the Norfolk Broads, in building form. We have proposed a collection of 'sail like' swooping curved roofing planes which create a dramatic and spacious interior. Large expanses of glass frame the outstanding surrounds while also flooding the building with natural light, while making the building more sustainable as a result of large solar gains. The concave roof planes also serve as grey water collectors allowing the building to be serviced by the water it collects. The roofing system itself is a unique system that we invented and pioneered in conjunction with structure mode (read our blog about that here). A cnc cut, LVL structural timber, self reciprocating, double curved timber roof with a stressed skin

How we developed an innovative roof construction method!

In 2014 we were given the exciting opportunity to design a replacement for a dilapidated, unused and unloved glass conservatory in East London. In this we saw the opportunity to experiment and develop an innovative timber roofing system. The result, a self reciprocating, double curved timber roof with a stressed skin. A unique roof was created unlike any in the surrounding area, floating above a beautiful space which is flooded with natural daylight everyday no matter the time of year. 

STEP 1 - 3D Modelling

After we had the idea for our new roofing system, we modelled it completely down to every nut and bolt on BIM. This allowed us to collaborate with structural engineers to ensure the rigidity of our proposed design. From our BIM model we were then able to extract each timber beam's outline for our test model. 

STEP 2 - Laser Cut Model

As our excitement increased about our idea becoming a reality we decided that we wanted to build a little version to keep in our office for ourselves. We produced a scaled laser cut model of the roofing structure - which not only looked cool but helped settle our nerves about it fitting together. Effectively we had designed a timber jigsaw on a building scale. 

"How we developed an innovative roof construction method" - Independent Place - MW Architects
"How we developed an innovative roof construction method" - Independent Place - MW Architects
"How we developed an innovative roof construction method" - Independent Place - MW Architects

STEP 3 - CNC Cutting

Physical model complete, it was now time for the real thing! After final structural checks, we exported our template for the timber beams and sent it over to Finland. We had decided that the best construction material would be Kerto-Q Structural LVL (Laminated Veneer Lumber) from Metsa Wood in Finland. The reason we decided on this was due to its exceptional structural performance. This super strength comes from its cross lamination, with each layer going in a different direction, meaning that when cut into curved beams the structural strength is in no way comprised. The below image shows how each sheet of LVL was cut using a CNC machine forming our individual pieces, with millimetre accuracy.  

It was then a waiting game for our timber to arrive in London! 

STEP 4 - Timber Arrives!

After a quick few weeks the wait was over and our oversized jigsaw pieces were in London! We began the trouble free, seamless operation of slotting ever piece together forming our double curved timber latice that served as the roofs 'structural bones'. Each element was bolted together, spreading the load across the entire roof, then down to the foundations through the steel support columns. Of course we had to go to site in order to see this process happen, we couldn't miss it! 

STEP 5 - Completion 

After the roof structure was assembled it was then lifted into to place, floating on thin steel columns and then made water tight with slithers of glass between the roof and the minimal side walls. The result, an innovative roof curving up graciously towards the sky. Not only an architectural showpiece in East London but also an engineering triumph. We were thrilled with our design but not as excited as the clients were to gain an extra room in their house. They were able to enjoy their garden all year round and fall back in love with their home. While great on the inside the unique extension also looks fantastic for passers by, especially once the sun has set and the building glows from within. 

"How we developed an innovative roof construction method" - Independent Place - MW Architects

Grand Designs Magazine

 

 

 

 

 

We were recently featured in the Grand Designs magazine as a result of our success in adding extensions to existing houses, gaining bigger and better kitchen and eating spaces. Our founding director, Matthew Wood, also offers his insight into how to create the biggest difference in your house with the smallest of changes. If you want to learn how you can add an extension to your house in order to gain valuable extra space or learn Matthew's top tips then we highly recommend you read the full article! 

 

 

 

 

 

 

 

 

If you have an idea about how you could extend your house and gain the extra space you've always dreamed of or want to tell us what you thought of the article then please let us know in the comments below! 

MW Architects

Home Work - Design solutions for working from home

Growing numbers of us work not only from home, but from anywhere; job flexibility has become a key requirement for employers and workers alike. This, in turn, has created new challenges for architects and designers – many of whom themselves start out working from home – who are tackling demand head on with innovative solutions that allow clients to transform their spaces to suit a wide range of needs, from multifunctional studios to homes that seamlessly combine work and family life. 

Divided into five thematic sections, this book explores the exciting variety of ways that the workplace can be integrated into the domestic environment. From stand-alone multifunctional furniture to mobile room dividers and dynamic solutions that fold out or pop up to create new work areas, each design addresses the unique needs of the space, client and working practices for which it was required, and tackles new questions about the rapidly evolving relationship between work and domestic life in the 21st century. 

This essential and timely resource for homeworkers and practitioners offers fresh ideas for how to strike the perfect balance between living and working at home.

This book gave us the opportunity for us to showcase our split level designs (Mackeson Road and Essex Mews) that connect eating, living and working spaces through the use of dramatic voids.