Computer Assisted Selection of Servomotor Driving System for Linear Motion NC Axis Experimental Stand

Florin Adrian Nicolescu; Georgia Cezara Avram; Andrei Mario Ivan; Adrian Theodor Mantea

doi:10.4028/www.scientific.net/AMM.762.61

Paper Titles

Reduction of Arbitrary Rigid Bodies to Inertially Equivalent Discrete Systems of Material Points
p.33

Hydraulic and Termographical Test Rig for Automatic Gearboxes
p.41

Bending Vibrations of a Viscoelastic Euler-Bernoulli Beam – Two Methods and Comparison
p.47

Experimental Research to Evaluate Thermal Behavior of a Brushless Driving Servomotor for Linear Motion NC Axis Experimental Stand
p.55

Computer Assisted Selection of Servomotor Driving System for Linear Motion NC Axis Experimental Stand
p.61

Energies of Accelerations in Advanced Robotics Dynamics
p.67

Reconfigurable Anthropomorphic Gripper with Three Fingers: Synthesis, Analysis, and Simulation
p.75

Structure and Control Method for a Pneumatic Muscle Actuated Seat Used in a Motion Simulator
p.83

Hybrid Force-Position Humanoid Hand Control in 3D Virtual Environment
p.91

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 762Computer Assisted Selection of Servomotor Driving...

Computer Assisted Selection of Servomotor Driving System for Linear Motion NC Axis Experimental Stand

Abstract:

The paper presents the works performed by the authors in the field of structural and functional optimization numerically controlled (NC) axes. The study includes two computing applications developed by second author of the paper in a PhD thesis related on NC axes’ structural and functional optimization. The first computing application is used for calculating the total reflected inertia of a linear motion NC axis (total inertial loads' reducing on the driving motor's shaft level). The second computing application is used for both preliminary selection of the driving servomotor (by checking first the accomplishment of the kinematic criterion) and a secondary selection of the electric motor (by checking in a second stage the accomplishment of the static and dynamic criterion). By mean of both software applications optimal matching of servomotor driving system with available NC axis mechanical structure may be determined. The analyzed linear motion NC axis is part of an experimental stand (existing in the MMS department from EMTS faculty), that supplementary to the driving servomotor, includes a belt drive transmission, a ball screw - bearings assembly and a driven element guided by ball rail system.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volume 762)

Pages:

61-66

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.762.61

Citation:

Cite this paper

Online since:

May 2015

Authors:

Florin Adrian Nicolescu*, Georgia Cezara Avram, Andrei Mario Ivan, Adrian Theodor Mantea

Keywords:

Computing Applications, Experimental Stand, NC Axis, Selection, Servomotor

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] Avram G. - C., Cercetări privind optimizarea structural – funcţională a axelor comandate numeric ale RI, în vederea creşterii performanţelor acestora (Research on structural and functional optimization of IR's numerically controlled axes in order to increase their performances), University POLITEHNICA of Bucharest, Bucharest, PhD. Thesis, pp.123-135 (2014).

Google Scholar

[2] Information on http: /www. fagorautomation. ch/_downloads/man_fxm_fkm_motors. pdf (FAGOR AUTOMATION, MOTOR FXM / FKM Installation manual Ref. 1301, FAGOR, 2013).

Google Scholar

[3] Information on http: /www. fagorautomation. com/downloads/manuales/en/man_dds_hard. pdf FAGOR AUTOMATION, DRIVE DDS Hardware manual, Ref. 1307 (2013).

Google Scholar

[4] A. Nicolescu, C. Avram, M. Ivan, Optimal servomotor selection algorithm for industrial robots and machine tools NC axis, Proceedings in Manufacturing Systems, Volume 9, Issue 2, (2014), p.105−114.

Google Scholar

[5] Information on http: /www. jp. nsk. com/app01/en/ctrg/index. cgi?rm=pdfView&pno=e3162 Catalog NSK – Precision Machine Components / NSK Linear Guides, Ball Screws, Monocarriers, Japan (2002).

Google Scholar

[6] Information on http: /www. schaeffler. com/remotemedien/media/_shared_media/08_media_ library/01_publications/ schaeffler_2/catalogue_1/downloads_6/prg_us_us. pdf.

Google Scholar

[7] Project Relansin 1971/19. 09. 2004, Stand complex pentru testarea și încercarea șuruburilor cu bile (Complex stand for testing ball screws assembly), project director prof. phd. eng. Nicolae Predincea.

Google Scholar

[8] Parpală R. C. - Virtual design of a machine tool feed drive system / U.P.B. Scientific. Bulletin, Series D, Vol. 71, Issue. 4 (2009).

Google Scholar