Title :
Extended Interference Matrices for Exploded View of Assembly Planning
Author :
Jiapeng Yu ; Li Da Xu ; Zhuming Bi ; Chengen Wang
Author_Institution :
State Key Lab. of Synthetical Autom. for Process Ind., Northeastern Univ., Shenyang, China
Abstract :
One of the tasks in assembly planning is to create the exploded views for the visualization purpose and the verification of assembly plans. In this paper, we introduce how to generate exploded views automatically from an assembly model. To increase the level of automation, a new relational matrix called extended interference matrix (EIM) is used to represent the assembly relations among constitutive parts. Information in an EIM is used to create the exploded views. An innovative method is developed to generate the exploded views based on the assembly sequences and EIMs. The corresponding Application Programming Interface (API) to the Unigraphics software has been developed as an integration of the algorithm with the CAD software tool. The assembly model of a gear reducer is used as a case study.
Keywords :
CAD; application program interfaces; assembly planning; computer aided production planning; data visualisation; matrix algebra; API; CAD software; EIM; Unigraphics software; application programming interface; assembly planning; assembly plans verification; assembly relations; assembly sequences; computer aided design; exploded view generation; extended interference matrices; gear reducer; relational matrix; visualization purpose; Assembly; Educational institutions; Explosions; Friction; Interference; Planning; Solid modeling; Assembly model; assembly sequence planning (ASP); contact-connection matrix; digital assembly planning; enterprise systems; exploded views; extended interference matrix (EIM); interference detection;
Journal_Title :
Automation Science and Engineering, IEEE Transactions on
DOI :
10.1109/TASE.2012.2235144
