An Assembly Structure using Functional Element for Product Assembly Sequence Generation

Themanagement of design information is been becoming more and more important, and considerable research is being carried out on the representation of design information of assembly parts. This paper describes the representation of an assembly structure, which includes the introduction of a functional element. By using this functional element, constraint of the assembly structure can be naturally described. The functional element is used to express relations among the parts, and a relation can describe constraints among assembly parts which interfere without touching. The relation includes an assembly method and is capable of describing both constraint and interference. We demonstrate that our representation of the assembly structure reduces the search space of the assembly sequence.

[1]  Arthur C. Sanderson,et al.  Representations of mechanical assembly sequences , 1991, IEEE Trans. Robotics Autom..

[2]  Shigeto Aramaki Object Oriented Approach For Task Level Robot Programming , 1987, Other Conferences.

[3]  C. L. Philip Chen Automatic assembly sequences generation by pattern-matching , 1989, IEEE 1989 International Conference on Systems Engineering.

[4]  Thomas L. DeFazio,et al.  Simplified generation of all mechanical assembly sequences , 1987, IEEE Journal on Robotics and Automation.

[5]  Arthur C. Sanderson,et al.  AND/OR graph representation of assembly plans , 1986, IEEE Trans. Robotics Autom..

[6]  Shigeto Aramaki,et al.  The knowledge representation and programming for robotic assembly task , 1999, Proceedings of the 1999 IEEE International Symposium on Assembly and Task Planning (ISATP'99) (Cat. No.99TH8470).

[7]  Isao Nagasawa,et al.  A Design Product Model for Mechanism Parts by Injection Molding , 2005, INAP.

[8]  Shigeto Aramaki,et al.  Representation of a Product Assembly Architecture for Assembly Sequence Generation. , 1995 .

[9]  Thomas L. DeFazio,et al.  An integrated computer aid for generating and evaluating assembly sequences for mechanical products , 1991, IEEE Trans. Robotics Autom..