Self-Moving Tail Prototyping and Structural Improvements

Jin Cheng; Yong Cun Guo

doi:10.4028/www.scientific.net/AMR.744.153

Paper Titles

The Influence of Different Resistance on Stability of Curve Jointless Line
p.132

Experimental Modal Analysis of the Industrial Flat Sewing Machine Based on PolyMax Algorithm
p.137

Conceptual Design and Optimization of Submarine Escape Capsule
p.143

Application and Study of Fuzzy Neural Network Theory Based on Takagi-Sugeno Model to Thermal Error Modeling on NC Machine Tool
p.147

Self-Moving Tail Prototyping and Structural Improvements
p.153

Modal Finite Element Analysis of Double Rollers Plastic Calender Equipment
p.157

Study on the Constitutive Behavior and Damage Evolution in the FPZ of WST Specimens Using the Vic-2D and Strain Gauges
p.161

Dynamics Analysis in Rigid-Flexible Coupling of Reinforced Steel Length Bodies with Friction Wheel
p.165

A Novel Approach for MEMS Vacuum Packaging
p.169

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 744Self-Moving Tail Prototyping and Structural...

Self-Moving Tail Prototyping and Structural Improvements

Abstract:

virtual prototyping technology 1980s developed a computer-aided engineering and virtual prototyping technology applications in the research and development of self-moving tail can greatly enhance progress in the development of the mechanical design of fully mechanized coal miningthe surface level of mechanization upgrade of great significance.

You might also be interested in these eBooks

Advances in Material Science, Mechanical Engineering and Manufacturing

View Preview

Info:

Periodical:

Advanced Materials Research (Volume 744)

Pages:

153-156

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.744.153

Citation:

Cite this paper

Online since:

August 2013

Authors:

Jin Cheng, Yong Cun Guo

Keywords:

Joint Simulation, Kind Prototype, Self-Moving Tail, Virtual Prototype

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] Li Hongjun, Yi-Ming Guo Tian cream. PDZY1000 belt conveyor self-moving tail [J]. Shandong Coal Science and Technology, 2011 (5) : 97-98.

Google Scholar

[2] Feng Goldwater large capacity super-heavy-duty belt conveyor self-moving tail design [J] Coal Science and Technology, 2011, 39 (11) : 81-84.

Google Scholar

[3] Ding Shuyong, inexpensive self-generated self-moving dynamic characteristics analysis [J]. Telescopic belt conveyor tail coal, 2007 (8) : 7-9.

Google Scholar

[4] Lu Zhen-xin, right to home too, Gao Zhiping, Zhang Yu water. Mechanized mining face transport Lane belt conveyor self-moving tail practice [J] Coal Science and Technology, 2006 (6) : 29-30.

Google Scholar

[5] Ding Shuyong. Extensible Belt since the shift of the tail with automatic tensioning device coordination control [D]. Taiyuan University of Technology, (2009).

Google Scholar

[6] Li Xiaoyu, Huang Ting. Mechanized caving face hydraulic self-shift belt tail transformation [J] coal, 2012, 21 (8) : 36-37.

Google Scholar

[7] even Tao, the Li Xin UW Belt Conveyor since shifted tail development [J]. Ningxia Machinery, 2006 (1) : 20-21.

Google Scholar

[8] Wang Yun MTD1200 thin seam tape machine self-moving tail design [J]. Coal project, 2009 (12) : 103-105.

Google Scholar