Virtual and Optimized Design of Mechanical Arm of Forestry Felling & Cultivation Machine

Zhan Guo Wei; Min Ya Deng; Jin Hao Liu

doi:10.4028/www.scientific.net/AMM.192.144

Paper Titles

Research on Hydraulic System of Speed Forging Hydraulic Machine
p.123

Based on the Force Characteristic Curve to Analysis Power Steering Gear Performance
p.128

Simulation Research of Natural Gas Injection Timing on Combustion Process in a Diesel Engine Fueled with Pilot-Ignited Directly-Injected Natural Gas
p.132

Using Force/Torque Balance Equations and CAD Variable Geometric Approach for Solving Active Force and Passive Force of a 3UPU-I Spatial Parallel Manipulator
p.139

Virtual and Optimized Design of Mechanical Arm of Forestry Felling & Cultivation Machine
p.144

Research on Integrated and Portable Weigh-in-Motion Scale
p.149

Analysis of New Type Repulsion Mechanism Performance
p.154

Study on Statistic and Analysis of Types of Slots Centering Relation
p.159

Dynamics Analysis of Model 150 Diesel Engine Piston
p.164

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 192Virtual and Optimized Design of Mechanical Arm of...

Virtual and Optimized Design of Mechanical Arm of Forestry Felling & Cultivation Machine

Abstract:

Forestry Felling &Cultivation Machine is a multi-functional, highly automatic and greatly efficient wood-cutting facility, whose unique advantage can be shown in the field of wood-cutting in the mountainous region. Mechanical arm is a prominent component of Forestry Felling &Cultivation Machine so that its design will have a direct impact on the function and the efficiency of Forestry Felling &Cultivation Machine. The paper aims at realization of hypothesized design of Forestry Felling &Cultivation Machine under the control of computer platform through hypothesized design of computer and simulation technology. Besides, it focuses on the structural analysis of mechanical arms through finite element theory and software of finite element analysis. What’s more, optimized design of structure will be reached according to the result of analysis so that the reliability of the structure can be proved and both development cycle of product and its research and development expense will be reduced.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volume 192)

Pages:

144-148

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.192.144

Citation:

Cite this paper

Online since:

July 2012

Authors:

Zhan Guo Wei, Min Ya Deng, Jin Hao Liu

Keywords:

Cultivation Machine, Finite Element Analysis (FEA), Forestry Felling Machine, Mechanical Arm, Simulation of Movement

Export:

RIS, BibTeX

Price:

Permissions:

Request Permissions

References

[1] Ma Longbin, Machines and tools on Forest harvesting China Forestry Publishing House.

Google Scholar

[2] Lin Haiming, Comprehensive Evaluation on Felling Equipment Forest Engineering 2005. 1 12-14.

Google Scholar

[3] Ye Xiuzi, Chen Chaoxiang. Advanced Course on SolidWorks: Advanced Assembly Machinery Industry Press (2007).

Google Scholar

[4] Huang Yuefei, Xu Guanghong. Graphic Method Used to Make Kinematical Analysis of Mechanism Based on SolidWorks Software Journal of Jiangxi University of Science and Technology 2007. 2 14-16.

Google Scholar

[5] Zhou Ning. Applications of ANSYS on Mechanical Engineering China Water Conservancy and Hydropower Press 2006. 5.

Google Scholar

[6] Liu Guoliang, Liu Luoqi. the manual on SolidWorks2006 - Diagram of COSMOS / Works Publishing House of Electronics Industry 2006. 8.

Google Scholar