Printable Hydraulics

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Printable Hydraulics: A new method for fabricating force-transmission elements within robots

Multi-material additive-manufacturing techniques offer a compelling alternative to conventional rigid and soft robot fabrication techniques, allowing materials with widely varying mechanical properties to be placed at arbitrary locations within a structure, and enabling design iterations to be rapidly fabricated with trivial effort. This capability enables complex composite materials with new bulk properties, and in contrast to virtually all other fabrication techniques, the incremental costs of additional design complexity when using additive manufacturing are zero. We have exploited this feature to co-fabricate solids and fluids within the same 3D-printed structure, demonstrating a new capability for transmitting force within 3D-printed robots: Printable Hydraulics.


ICRA 2016 Paper - Printable Hydraulics: A Method for Fabricating Robots by 3D Co-Printing Solids and Liquids ICRA Video Submission

Automated assembly of integrated robotic structures

Printed Hydraulics Overview
Printed Hydraulics Overview

This method, based on inkjet deposition of photopolymers and non-polymerizing fluids, can achieve resolutions better than 100μm, allowing the fabrication of complex channels for fluid routing and capillary structures for selectively distributing hydraulic pressure to regions of the assembly with precisely graded elasticity, enabling prescribed movements in response to pressure changes. Control of complex composite assemblies fabricated in this manner is simplified because the working fluid is incompressible; because the solid and fluid regions are fabricated together, there is no need to purge air bubbles or remove support material. The key idea of this approach to robot fabrication is to automate the assembly of complete robotic structures. By reducing or eliminating assembly steps, this method breaks the connection between design complexity and fabrication complexity, allowing complex designs to be fabricated with trivial effort.

Basic Unit: the Bellows

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