Structure Design and Analysis of Multi-Stage High Efficiency Linear Pumping Unit

Sen Wang; Yang Yang Zhao; Xiu Min Yang; Hong Kui Yan; Feng Guo; Yan Long Ren; Si Yang Li; Jia Cheng Guo

doi:10.4028/www.scientific.net/AMM.872.256

Paper Titles

Design of a Bicycle Wheel with Shock Absorption Ability
p.235

Strength Analysis of Efficient Linear Pumping Unit
p.241

Temperature Field Analysis of High Efficiency Linear Pumping Unit
p.246

Multi-Physics Coupling Analysis of Efficient Pumping Unit Linear Motor
p.251

Structure Design and Analysis of Multi-Stage High Efficiency Linear Pumping Unit
p.256

Dynamic Reliability-Based Robust Optimization Design for the Hoist Drum Web Plate
p.261

Rocker Arm Force Analysis of Crown-Block Heave Compensation System Based on ADAMS
p.266

Film Cooling Performances at Different Turbulence Intensities Using Conjugate Heat Transfer Analysis
p.271

Study and Design Sailboat Type Dinghy
p.279

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 872Structure Design and Analysis of Multi-Stage High...

Structure Design and Analysis of Multi-Stage High Efficiency Linear Pumping Unit

Abstract:

A multi-section high efficient pumping unit was designed. The pumping unit has a multi-stage structure including forcer part of the use of linear motor and four-stage linear motor extract oil one after another. Consumption can be reduced and the operating efficiency of the machine can be improved. Each component of high efficiency linear pumping unit is introduced. Using power inverter to control pumping unit without complicated equipment and contact limit controller, pumping stroke adjustment can be realized. The control system adopts the vector control, high control precision and anti-interference ability.

You might also be interested in these eBooks

Applied Engineering, Materials and Mechanics

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volume 872)

Pages:

256-260

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.872.256

Citation:

Cite this paper

Online since:

October 2017

Authors:

Sen Wang*, Yang Yang Zhao, Xiu Min Yang, Hong Kui Yan, Feng Guo, Yan Long Ren, Si Yang Li, Jia Cheng Guo

Keywords:

Automatic Control, Frequency Changer, Linear Motor, Multi-Stage, PLC

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] D. L. Yu, S. C. Deng, Y. M. Zhang, et al. Submersible reciprocating working condition of oil pumping unit is based on support vector machine (SVM) diagnostic method, J. Electrotech. 28(4) (2013) 248-254.

Google Scholar

[2] X. L. Zhang, X. Y. Ji, R. Q. Luo. Beam type pumping unit technology and the application, Petrol. Ind. Press, (2001).

Google Scholar

[3] Y. H. Zhu, The choice and Settings frequency converter control function, Electr. Appl. 03 (2006) 33-35.

Google Scholar

[4] Liyi L, Mei C S, Ping Z, et al. Experimental study on a novel linear electromagnetic pumping unit, IEEE Transactions on magnetics, 37(1) (2001) 219-222.

DOI: 10.1109/20.911825

Google Scholar

[5] Honda A, Okano F, Ooshima K, et al. Application of PLC to dynamic control system for liquid He cryogenic pumping facility on JT-60U NBI system, Fusion Engineering and Design, 83(2) (2008) 276-279.

DOI: 10.1016/j.fusengdes.2008.01.005

Google Scholar

[6] Z. H. Jin, Y. Peng, F. Fei, G. Wang, Digital pumping technology present situation and development trend, Petrol. Mach. 12 (2014) 65-68.

Google Scholar

[7] Y. Ting, L. C. Chen, C. C. Li, et al. Stator and Carriage for a Piezoelectric Liner Motor:, US20070176515, (2007).

Google Scholar

[8] P. Chen, J. Zheng, Based on the DSP28335 PMLSM servo system design and implementation, Comb. Mach. Tool. Automat. Proc. Tech. 01 (2013) 80-83.

Google Scholar