Hey! I am Micha Baggenstos, an industrial designer and mechanical engineer from Zürich. [about
Previous projects and current topics of interest
with Nathanael Boell and Philipp Kneller (2025)
Work in Progress:
Interactions with electronic devices have become part of our lives - devices which we may feel powerless against, because the technology inside is inaccessible to most of us.
I imagine a culture that allows everybody to change, repair, manipulate: hack. In the search of it, I collect interventions where people adapted their surroundings in a way, that is unintended by the „initial designer“. Through these engagements, a culture around sustainable relationships to the objects, spaces, and systems around us can evolve.
(2024...)
The project started as bachelor thesis at the Ostschweizer Fachhochschule. A ski touring binding was developed, that allows for a rolling motion of the ball of the foot. This optimizes the shift of the body’s center of gravity during forward movement. The improvement is noticeably perceptible and enables a more dynamic and gentle gait.
The binding was patented [EP 4 173 682 B1] and is being further developed by Fritschi AG.
Most recently we adapted the concept in a binding for polar expeditions in collaboration with Anja Blacha.
(2021 – 2024)
Design Engineering Zürich
Development of several industrial products at the agency Design Engineering Zürich GmbH.
(2021 – 2024)
During summer camps, the youth organization Jubla needs additional mobile fireplaces that can be easily set up for various tasks. When not in use, they can be compactly stowed away for transport and storage.
The fire pit can be assembled in different configurations, with options to leave out the legs or add additional sidewalls for wind protection or to build an oven.
(2019, in collaboration with Roman Zenger)
Pollinator Research
Research device concept, developed at the IPEK Institute (Ostschweizer Fachhochschule) for PD Dr. Eva Knop. The device periodically isolates the plants inside from insects, allowing the examination of nocturnal insect populations based on plant seed formation. Key aspects of the development included a modular design, portability, and autonomous, reliable operation over several weeks.
(2018)