Title :
Trap design for vibratory bowl feeders
Author :
Berretty, Robert-Paul ; Goldberg, Ken ; Cheung, Lawrence ; Overmars, Mark H. ; Smith, Gordon ; Van der Stappen, A. Frank
Author_Institution :
Dept. of Comput. Sci., Utrecht Univ., Netherlands
Abstract :
The vibratory bowl feeder is the oldest and still most common approach to the automated feeding (orienting) of industrial parts. We consider a class of vibratory bowl filters that can be described by removing polygonal sections from the track; we refer to this class of filters as traps. For an n-sided convex polygonal part and m-sided convex polygonal trap, we give an O((n+m)log(n+m)) algorithm to decide if the part will be rejected by the trap, and an O((nm(n+m))1+ε) algorithm which deals with non-convex parts and traps. We then consider the problem of designing traps for a given part, and consider two rectilinear subclasses, balconies and gaps. We give linear and O(n2) algorithms for designing feeders and have tested the results with physical experiments using a commercial inline vibratory feeder
Keywords :
assembling; computational complexity; computational geometry; materials handling; O(n2) algorithms; automated feeding; balconies; gaps; linear algorithms; m-sided convex polygonal trap; n-sided convex polygonal part; polygonal sections; rectilinear subclasses; trap design; vibratory bowl feeders; vibratory bowl filters; Assembly; Automatic testing; Blades; Filters; Java; Manufacturing automation; Online Communities/Technical Collaboration; Optical sensors; Vibrations; Writing;
Conference_Titel :
Robotics and Automation, 1999. Proceedings. 1999 IEEE International Conference on
Conference_Location :
Detroit, MI
Print_ISBN :
0-7803-5180-0
DOI :
10.1109/ROBOT.1999.773982
