首页|Reconfigurable Modeling Technology of Similar-structure Products Configuration Design

Reconfigurable Modeling Technology of Similar-structure Products Configuration Design

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The product configuration modeling is a key technology to realize configuration design.Most of the researches were mainly conducted focusing on how to establish a product configuration model,but were short of the consideration about the application scope and dynamic change features.In this paper,the reconfigurable modeling technology of similar-structure products configuration design is studied to enhance the generality and diversity of product configuration models,and to facilitate the dynamic upgrade of configuration models.The configuration components of products with similar structures are divided into sharable configuration components,essential configuration components and optional configuration components,so the construction of reconfigurable model of configuration design can be converted into the set operation of configuration components.The horizontal adjusting reconstruction of configuration model is carried out through the adding,replacing and deleting of configuration components,the vertical adjusting reconstruction of configuration model is carried out through the parametric deformation of configuration components,and the variable topological configuration model reconstruction can be realized through the transformation of partial structure of configuration components.Finally,NC machine products are used as an example to analyze and verify,the reconfigurable modeling technology of products with similar structures.The speed of NC machine configuration design is found to be improved,and the number of NC machine configuration design models is decreased.And the reconfigurable design system of NC machine products is developed.The proposed modeling technology provides references for the processes,methods and steps of model reconstruction.

similar-structure productsconfiguration componentproduct configuration modelreconstruction

QIU Lemiao、REN Bin、ZHANG Shuyou、XU Jian

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The State Key Lab of Fluid Power Transmission and Control Zhejiang University, Hangzhou 310027, China

This project is supported by National Natural Science Foundation of ChinaNational S&T Major Project of ChinaFundamental Research Funds for the Central Universities of China

Grant No.50905159Grant No.2012ZX04010-011Grant No.2012FZA4001

2013

10.3901/CJME.2013.01.189

中国机械工程学报
中国机械工程学会

中国机械工程学报

CSCDSCIEI
影响因子:0.765
ISSN:1000-9345
年,卷(期):2013.26(1)
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