Abstract
This paper deals with an application of a small mobile device, “AZARASHI (seal) Mechanism” to a micromanipulation device. Pick-and-place tasks are very important in small-size-part manufacturing, printedcircuit board testing and biotechnological operations. A prototype of themicromanipulation device with four degrees of freedom was built. The device consists of an L-shaped AZARASHI device for thex-,y- and θ- motions, and a one-degree-of-freedom device used for thez-motion as mobile platforms. By an automatic sequence under visual feedback, glass beads were manipulated. A bright point observed with a videomicroscope was used instead of a target marker to position the stage for flexible usage. In order to trap a small glass bead, the air was gently sucked through a glass capillary. The stage was controlled to track the bright point by a binary image. Then the bead was placed by releasing the pressure to atmospheric one. Error factors were discussed through the evaluation of each step. The positioning accuracy of the stage was within 1 pixel. Adhesion of the beads on the capillary mainly decreased the total positioning accuracy.
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