We wanted to give a strong identity to the Mos(kit)o project since the beginning. The idea was to find an evocative logo and create a coherent graphic charter for all communication media (poster, business card, wiki, flyers, exhibition cartels, sweat shirts…) but also in the objects embedded in the project.
Here is an overview of our first sketches. This is the research step, where we explored several ideas to find the best technical solutions for each object. Hand sketches also allowed us to better communicate between the team members to edit or validate technical and formal research.
The 3D modeling allowed us to visualize volumes, dimensions and also the materials of our devices. This step is very important because it has allowed us to make choices on the industrial approach of production, to anticipate the price of the Mos(kit)o device. We compare the functional principles to the formal choices and improved the initial drawings. Here is an overview the trap modeling (on Rhinoceros software) and the analysis kit modeling (on Solidworks software).
Following the technical and shape validation on the 3D modeling, we made renderings (Keyshot software). They allowed us to define aesthetic characteristics such as colors, surface aspects and other details related to the visual identity of Mos(kit)o. It was the latest digital validation step before starting to build a prototype.
As designer students, we have at our disposal various workshops and prototyping machines such as laser cutter, plotters, 3D printers… These essential tools allow us to quickly test our project ideas, and to get quick feedbacks to adapt our designs. Here, we used two different 3D printers : an « Ultimaker 2 » and a «Zortrax ». We printed the different parts of our devices in PLA and ABS, in a 60 µm definition.
When the device parts are printed, the job isn’t finished yet! To get a more realistic result, we sanded several times the objects, then put a layer of primer and finally painted them. We chose to affix the Mos(kit)o logo and some legal information linked to safety (such as a serial number, or a caution sentence)through the film transfer technique. Finally, we created videos on the assembly of the trap and the user guide for the analysis station as instructions for users (Cinema 4D software).