Research on Dynamic Design Method Based on Measuring Information for Printing Press

Yi Ming Wang; Bang She Chen; Yan Li; Shao Hua Zhang

doi:10.4028/www.scientific.net/AMR.174.290

Paper Titles

Research on the Methods of the Testing on the Value of the Cylinder's Axial Bounce of the Press
p.273

Optimization Design of the Web Press’s Fold Mechanism Based on Robustness
p.277

Measurement System Design of Rotary Viscosity Based on MCU and CPLD
p.282

Research on the Vibration Cutting and the Simulation
p.286

Research on Dynamic Design Method Based on Measuring Information for Printing Press
p.290

A Miniature Handheld Automatic Detected Device for Register
p.295

Parameter Study of Offset Press Cylinder Based on Sliding Friction
p.299

Application of Parallel Indexing Cam Design Software Platform in Intermittent Mechanism Designing of Die-Cutting Machine
p.303

Cutting Software Development Based on JDF Digital Workflow
p.307

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 174Research on Dynamic Design Method Based on...

Research on Dynamic Design Method Based on Measuring Information for Printing Press

Abstract:

Printing machinery’s reliability is one of the most important index parameter and good dynamic characteristics are essential for high speed printing press. The dynamic characteristic is predictable for printing machine with dynamic design. With the complexity of printing technique and printing machine, information, such as load on components is lack, leading to the difficulty of dynamic model solving and further more the dynamic parameters needs to be verified. Firstly, according to the dynamic design method, a dynamic design process based on measuring information for printing machine was put forward. Secondly, on the basis of principle and structure analysis to typical printing machine, dynamic characteristics measurement item and method was determined. With a wallboard of a two-color offset press acting as an example, the utilizing method was illustrated through dynamic modeling, theoretical model analysis, experiment model analysis based on vibration measurement and comparing the theoretical and experimental results. Finally, a Dynamic Design Assistant Platform based Vibration Measurement for Printing Machine was developed and had been used in 10 kinds of printing machine measurement and analysis. The conclusion shows that the tolerance of the theoretical model analysis results and experiment results is allowed. A new approach for new printing machine design and optimal design for existed printing machine is given.