Integrated Rolling Bearing Type Selection and Parameter-Driven Graphic Resource System

Hui Yao; Yan Cao

doi:10.4028/www.scientific.net/AMR.532-533.441

Paper Titles

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A Discussion about Finite Element Analysis of Aircraft Wing Structure
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Numerical and Experimental Study on a Honeycomb Ceramic Monolith
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Numerical Model of the Start-Up Process of a Honeycomb Regenerator
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Integrated Rolling Bearing Type Selection and Parameter-Driven Graphic Resource System
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Disease Detection and Capacity Analysis of the Double Arch Bridge
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Excavation and Support of Deep Foundation Pit Finite Element Analysis
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Simulation of Underground Water Inrush Spreading Based on Multiple-Phase LBM
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Nonlinear System Modeling Study Based on Fuzzy Neural Network with Chaotic Mechanism
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 532-533Integrated Rolling Bearing Type Selection and...

Integrated Rolling Bearing Type Selection and Parameter-Driven Graphic Resource System

Abstract:

To solve rolling bearing type selection in engineering design, with the development tool of Visual LISP and parametric design method, module programming is used to develop an integrated rolling bearing type selection and graphic resource system that accords with national standards and design process in machinery industry. According to the Latest Bearing Manual and newest National Bearing Standards, the bearing performance analysis algorithm module and Access databases of rolling bearings are established. Under the controlling of a process management module, AutoCAD is connected with Access and the data is queried in the Access databases. Thus, the designer is guided to accomplish the rolling bearing type selection step by step according to its performance requirements. In addition, the system integrates the bearing graphic resource module and according to the user requirements, the system completes the detail drawing of the rolling bearing automatically. The system interface established with DCL is easy to use and accords with engineering personnel’s habits. The system can be extended to include other rolling bearing type selection and graphic resource system. It is proved that the system can improve product design efficiency and quality.