A foot prosthesis with non-linear stiffness and high rotation of the ankle, equipped with a mechanism able to vary the stiffness manually or automatically, allowing to adapt to the specific tasks of use required by the user.
| Patent title | Impianto protesico della tipologia ESR e metodo per regolare l'impianto protesico |
|---|---|
| Thematic area | Health |
| Ownership | ALMA MATER STUDIORUM - UNIVERSITA' DI BOLOGNA |
| Inventors | Tommaso Maria Brugo, Andrea Zucchelli, Johnnidel Tabucol, Marco Leopaldi |
| Protection | International (PCT) |
| Licensing status | Available for development agreements, option, license and other exploitation agreements |
| Keywords | Prosthesis, Variable stiffness, Laminae spring, Composite spring |
| Filed on | 13 January 2022 |
Prosthesis with variable stiffness are already existing, with different configurations. A prosthetic foot exploits the variation of the position of a pivot on which the elastic element in composite material; the elastic element works flexurally and the variation of the pivot’s position generate a variation of the bending behavior of the elastic element, increasing or decreasing the stiffness of the entire system. The variation of the pivot occurs by means of a ballscrew. Still exploiting the variation of the position of the pivot, but with another configuration, the stiffness is varied also in another solution found in literature. A commercial passive prosthesis, composed by three elastic elements and two rigid elements was studied and modified replacing one of the rigid elements with a spring-damper system: modifying the properties of this spring-damper system, a variation of the stiffness of the foot prosthesis is obtained.
The proposed invention is applied to a foot prosthesis originally passive, composed by three elastic elements (blades) in composite materials and by two rigid elements. The device allows the translational motion of some components in order to modify (increase or decrease) the system stiffness.The translational motion occurs to a ballscrew system and it can occur manually, therefore passively, or actively by means of an actuator.
Applications:
- Foot prosthesis
Advantages:
- Stiffness variation as a function of the activity performed
- Simplified design and production process, with lower environmental impact
- Customizable prosthesis (usable for weight ranges)