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Bonato
Ferruccio Bonato, Peschiera Del Garda IT
| Patent application number | Description | Published |
|---|---|---|
| 20090320532 | ANTI-THEFT DEVICE - An anti-theft device comprising an electrically conducting flexible cable which is connected, at one end, to elements for detachable engagement with an item to be retained and is provided with elements for detecting the engagement of said detachable engagement elements for detachable engagement with the item to be retained, and a supporting base which can be associated with a control unit which is designed to act in response to the detection, by the detection elements, of the engagement/disengagement of the detachable engagement elements for detachable engagement with the item to be retained, the device further comprising elements for detachable connection between the flexible cable and the supporting base. | 12-31-2009 |
Luca Bonato, Milan IT
| Patent application number | Description | Published |
|---|---|---|
| 20110293952 | COMPOSITION AND PROCESS FOR SEALING THE SURFACE OF BUILDING MATERIALS - A composition is described, for filling the pores existing in the surfaces of coatings used in architecture, both for exteriors and for interiors, whose function is protecting the above surfaces against stains, comprising: sodium silicate to form a film; natural or synthetic mineral nano-charges to reduce, when drying, the shrinkage of a material deposited inside the pores; glycerine to slow-down drying; water as solvent; surface-active material to make it easier to wet the surface pores; dispersant to stabilise the nano-particles and to avoid their agglomeration and following sedimentation. | 12-01-2011 |
Michel Bonato, Tournefeuille FR
Paolo Bonato, Somerville, MA US
| Patent application number | Description | Published |
|---|---|---|
| 20090306801 | PATIENT SPECIFIC ANKLE-FOOT ORTHOTIC DEVICE - The unique advantages of computer-controlled fabrication of a patient-specific orthotic device using an automated fabrication machine capable of following computer instructions to create 3D surface contours and new developments in non-invasive three-dimensional (3D) scanning have made it possible to acquire digital models of freeform surfaces such as the surface anatomy of the human body and to then fabricate such a patient-specific device with high precision. Such a patient-specific device brings significant improvement in patient-specific fit, comfort, and function of medical devices (and, in particular, to orthoses that require a close fit to the wearer's body to act effectively). The combination of these two technologies is ideally suited for the development of patient-specific orthotic devices. | 12-10-2009 |