Part orientation with programmable vector fields: two stable equilibria for most parts

Abstract

Part manipulation is an important but also time consuming operation in industrial automation. Recent work explores alternative solutions to the mechanical parts feeders which have been traditionally used to sort and orient parts for assembly. One of the proposed alternatives is the use of programmable vector fields. The fields are realized on a plane on which the part is placed. The forces exerted on the part's contact surface translate and rotate the part to an equilibrium orientation. It has already been demonstrated that certain vector fields can be implemented in the microscale with MEMS actuators arrays and in the macroscale with transversely vibrating plates. Although current technology is still limited, the dexterity that programmable vector fields offer has prompted researchers to further explore their capabilities. This paper presents a vector field that can simultaneously orient and pose most parts into two stable equilibrium configurations.