Influence of Crank Radius on the Curve Shapes for a Multi-Link High-Speed Precision Press

Xin Jian Lu; Si Hong Zhu; Zun Mang Ke; Jian Qin; Shao Wei

doi:10.4028/www.scientific.net/AMM.141.313

Paper Titles

Finite Element Simulation of Extremely High Speed Machining of Ti6Al4V Alloy
p.293

Four-Point Regulation Algorithm for an End-Effector of a Flexible Drilling Robot
p.298

Fuzzy Sliding Mode Control for a Three-Links Spatial Robot Based on RBF Neural Network
p.303

Helmholtz Resonator with Extended Neck and Absorbing Material
p.308

Influence of Crank Radius on the Curve Shapes for a Multi-Link High-Speed Precision Press
p.313

Influence of Vehicle Suspension System on Ride Comfort
p.319

Interior Acoustic Field Analysis of Hydraulic Excavator’s Cabin Based on Bem
p.323

Investigation of Laser Parameters Influence of Direct-Part Marking Data Matrix Symbols on Aluminum Alloy
p.328

Kinematics and Kinetostatic Analysis of a New Type of Mechanical Excavator with Controllable Mechanism
p.334

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 141Influence of Crank Radius on the Curve Shapes for...

Influence of Crank Radius on the Curve Shapes for a Multi-Link High-Speed Precision Press

Abstract:

The parameterized dynamic simulation model for a multi-link high precision press has been established in the ADAMS software environment based on the displacement equations. The press being developed is taken as an example to study the slider’s displacement curves, velocity curves and acceleration curves under different crank radius in practice as well as the working angle curves and torque curves. With the crank radius increasing, the started punching angle comes early and the slider’s velocity and acceleration at bottom dead center (B.D.C) decreases significantly which help to improve the accuracy of B.D.C and to lower the torque consumption during stamping. Meanwhile, the increasing of working angle helps to reduce the lateral force acting on the slider, such as the torque required to overcome the inertial forces increases rapidly, the torque needed to overcome the nominal force decreases and the peak of nominal force shifts to the lower left gradually. Results of the research mentioned above are helpful to develop the multi-link high-speed press.

You might also be interested in these eBooks

Functional Manufacturing and Mechanical Dynamics II

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volume 141)

Pages:

313-318

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.141.313

Citation:

Cite this paper

Online since:

November 2011

Authors:

Xin Jian Lu, Si Hong Zhu, Zun Mang Ke, Jian Qin, Shao Wei

Keywords:

Crank Radius, Curve Shape, Dynamic, Multi-Link High-Speed Press

Export:

RIS, BibTeX

Price:

Permissions:

Request Permissions

References

[1] X.L. Wang, T.Y. Zhou: Transactions of the Chinese Society for Agricultural Machinery, Vol. 38 (2007), pp.232-234.

Google Scholar

[2] Z.Y. Shen: Research on the main drive system for all-electric servo toggle NC press (Yangzhou University, Yangzhou 2006).

Google Scholar

[3] X.J. Lu, Z.M. Ke, S.H. Zhu, and S.Y. Guo: Forging & Stamping Technology, Vol. 35 (2010), pp.107-111.

Google Scholar

[4] W.M. Hwang: Int.J. Mach. Tools Manufacture, Vol. 35 (1995), pp.1425-1433.

Google Scholar

[5] E.H. Xia, S.X. Liu, and Z.Q. Du: Forging and stamping crank presses (Shanghai Scientific & Technological Literature Publishing House, Shanghai 1988).

Google Scholar

[6] D.Y. He: Crank press (Mechanical Industry Press, Beijing 1981).

Google Scholar

[7] X.J. Lu, S.H. Zhu, Z.M. Ke, G.J. He, and Y.Q. Zhou: Dynamic Analysis of a Multi-link High-speed Press (2011 Third International Conference on Measuring Technology and Mechatronics Automation, Shanghai 2011).

DOI: 10.1109/icmtma.2011.276

Google Scholar

[8] Y.S. Sun, H.C. Zhang: Forging & Stamping Technology, Vol. 29 (2004), pp.1-4.

Google Scholar