Modal Analysis and Numerical Solution in Cable Drilling System

Chang Gen Bu; J.W. Li; B. Long

doi:10.4028/www.scientific.net/AMR.819.48

Paper Titles

Establishment of Cutting Model for Three-Axis Surface Machining Based on SolidCAM
p.29

Machined NURBS Surface Description Using On-Machine Probing Data
p.33

Methods of Gear Damage Assessment Based on Modal Parameter Identification
p.38

Milling Machine Spindle Dynamic Analysis
p.43

Modal Analysis and Numerical Solution in Cable Drilling System
p.48

Modeling Cutter Engagement Region for Triangular Mesh
p.55

Performance Evaluation and Prediction of Escalator Structure Using FEM-Based Analysis
p.59

Precision Straightening Method of Thin-Walled Seamless Steel Pipes
p.65

Research on the Dynamic Characteristics of NC Boring Machine Spindle System Based on Finite Element Analysis
p.71

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 819Modal Analysis and Numerical Solution in Cable...

Modal Analysis and Numerical Solution in Cable Drilling System

Abstract:

Cable percussive drill is an important drilling machine in the construction of large diameter pile foundation, and complicated dynamic system. However, the design of cable percussive drill is mainly relied on empirical methods or simplified formulas, the dynamic characteristics of coupling system has not been fully understood. Based on the special conditions, the two degrees of freedom dynamic system coupling with buffering mechanism and bit is analyzed, and the vibration differential equation is built. Finally, the modal frequency of system is obtained by numerical method, and the correlation between the modal frequency of system and the structure parameters is built. The result develops the design theory of cable percussive drill and provides valuable preferences for the optimal design.

You might also be interested in these eBooks

Contemporary Design and Manufacturing Technology

View Preview

Info:

Periodical:

Advanced Materials Research (Volume 819)

Pages:

48-54

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.819.48

Citation:

Cite this paper

Online since:

September 2013

Authors:

Chang Gen Bu, J.W. Li, B. Long

Keywords:

Buffering Spring, Cable Drill, Four-Bar Linkage, Modal Frequency

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] Z.S. Yu, Brief analysis of the Development of Steel Cable Type Impact Drill Rig, Journal of Mechanical engineering. 3 (2002) 30-34.

Google Scholar

[2] C.G. Bu, Design of Synchronous Hoist in Percussive Reverse Circulation Drill, Journal of Mining machinery. 9(2011) 9-11.

Google Scholar

[3] D.C. Hu, Primary Discussion on the Reverse Circulation Percussive Drilling Technology. Journal of West exploration engineering. 3(2000) 96-97.

Google Scholar

[4] Z.Y. Li, Status Quo and Trend of Percussive Reverse Circulation Pile Hole Drill Rigs in China, Journal of Exploration engineering. 1(2001) 60-61.

Google Scholar

[5] H.M. Yang, Drilling equipment, Geological publishing house, Beijing (1988).

Google Scholar

[6] P. Yu, The Development of CHF-20 Percussive-Rotary Reverse-circulation Drill- research and simulation analysis of working mechanism, Jilin university, Changchun (2005).

Google Scholar

[7] B.C. Wen, Mechanical vibration, Metallurgical industry press, Beijing (1999).

Google Scholar

[8] F.S. Tse, I.E. Morse, R.T. Hinkle, Mechanical Vibration Theory and Applications, Allyn and Bacon Inc. (1978).

Google Scholar