Digital House
Julian Krüger + Benjamin Kemper
ARCHITECTS
Benjamin Kemper, Julian Krüger
FUNDING
German Federal Ministry For Economic Affairs And Climate Action (Bmwk)
SECURITY SYSTEM
Abus August Bremicker Söhne Kg
LEAD ARCHITECTS
Julian Krüger, Benjamin Kemper
WOOD, INSULATION
Steico Se
MANUFACTURERS
Abus August Bremicker Söhne Kg, Fritz Egger Gmbh & Co. Og, Gerflor Mipolam Gmbh, Krinner Schraubfundamente Gmbh, Robert Mcneel & Associates, Steico Se
WOOD
Fritz Egger Gmbh & Co. Og
ALUMINUM
Speira Gmbh
FLOORS
Gerflor Mipolam Gmbh
MANUFACTURING
Bck Metallverarbeitung Gmbh
PHOTOGRAPHS
Ulian Krüger, Benjamin Kemper
AREA
16 M²
YEAR
2022
LOCATION
Wismar, Germany
CATEGORY
Residential
A novel approach to digital fabrication in architecture has emerged in Wismar, a historic Hanseatic city in Northern Germany, with the creation of the “Digital House” - a prototypical building entirely digitally designed, fabricated, and assembled without the need for tools.
Julian Krüger (Munich University of Applied Sciences) and Benjamin Kemper (Wismar University of Applied Sciences) developed a sustainable, cost-effective building system based on innovative plug-in construction methods.
In a grove not far from the Faculty of Architecture and Design at Wismar University, a small house with a shiny, silvery facade and a steep, west-facing mono-pitch roof stands 6.5 m high on a footprint of 3.3 × 4.9 m.
Light enters the spacious interior through a continuous window ribbon and four large windows cutting through the facade made from recycled aluminum sheets.
The house features an inventive wood construction system CNC-milled from 24mm plywood, allowing two people to assemble it quickly without any tools or hardware, such as screws or nails.
This flexible system, which allows for disassembly and reuse, strengthens the project's approach to sustainability.
The wooden structure is clad with plywood panels inside and a vapor-permeable wood fibreboard on the outside and insulated with eco-friendly wood fiber.
The "Digital House" rests on six ground screws, enabling quick and traceless disassembly and eliminating the need for concrete or groundwork.
The prototype showcases a parametrically designed facade made of recycled aluminum sheets.The computer-generated horizontal elements wrap the entire building, laying close to the structure around the openings and fanning out over the closed areas.
The aluminum sheets are laser-cut and contain all the required fastening details, which are folded out and attached to the sub-construction.The windows and the door of the “Digital House” also follow the plug-in construction principle and are CNC-milled of 24 mm multiplex panels.
The building system is optimized for future parametric planning. This allows for app customization of the house's form and function.
Users can personalize the building's shape, floor plan, roof, openings, and facade to their specific needs to either build small standalone structures or densification projects in urban areas.
The project highlights how digital planning, efficient production, and the optimized use of renewable and recycled materials can contribute to sustainable building.
The selection of panel materials for the construction and facade systems allows for a fully automated, cost-effective fabrication of the parts using
CNC milling and laser machines. It ensures a seamless process chain - from planning, production to on-site assembly.
The “Digital House” demonstrates that an integrative approach in the development and fabrication phases increasingly blurs the boundaries between the traditional areas of preliminary design, detailed design, fabrication, and construction and shows the potential impact of digital design and fabrication methods on architectural production.
