Design of Milk Packaging Line Based on FluidSIM-P

Rui Qing Wang; Yue Xia Hu

doi:10.4028/www.scientific.net/AMM.422.152

Paper Titles

The 3D Parametric Modeling and Simulation of SL1126 I.C.Engine
p.132

Designation of a Grating Torque Measurement Device Based on FPGA and MCU
p.136

Present Situation and Development Review of Torque Measurement
p.141

Compatibility Problem of TN and IT System in the Same Building
p.146

Design of Milk Packaging Line Based on FluidSIM-P
p.152

Design of Virtual Assembly Sequence Planning System Based on Double Bases Cooperation Mechanism
p.159

Detection of Intima-Media Thickness in Common Carotid Artery on Ultrasound Image
p.165

The Application of Augmented Reality in Mobile Learning Based on Cloud Computing
p.172

The Study of Access Mechanism for the Security of Linux
p.176

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 422Design of Milk Packaging Line Based on FluidSIM-P

Design of Milk Packaging Line Based on FluidSIM-P

Abstract:

Pneumatic transmission system structure is complex and procedural abstraction. The system can also be difficult to test the intuitive way. Effective design and test means become one of important content in pneumatic system design. This paper introduces the FluidSIM software environment pneumatic transmission system design and simulation function and design milk packing line pressure drive system. It is proved that the system is feasible.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volume 422)

Pages:

152-155

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.422.152

Citation:

Cite this paper

Online since:

September 2013

Authors:

Rui Qing Wang*, Yue Xia Hu

Keywords:

Design, FluidSIM-P, Pneumatic Transmission

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] Wangruiqing, Mahongge. Electric hydraulic pneumatic technology[M], Chemical Industry Press, (2012).

Google Scholar

[2] Luxingsheng, Zhouhong. The optimization design of the pneumatic automation system [M], Shanghai science and technology literature press, (2000).

Google Scholar

[3] Tangdedong, Kongxiangbing, Hanguihua. FluidSIM-P in the application of hydraulic and pneumatic teaching [J], The mechanical design and manufacturing: 2005 (4)-42.

Google Scholar

[4] Yangcunzhi. Based on FluidSIM Pneumatics software pneumatic and electromechanical integration design [J], coal mine machinery: 2004 (9) : 63-65.

Google Scholar

[5] Wu H., Xu J.B., Zhang S.F., Wen H, GPU Accelerated Dissipative Particle Dynamics with Parallel Cell-list Updating, IEIT Journal of Adaptive & Dynamic Computing, 2011(2), Apr 2011, pp: 26-32. DOI=10. 5813/www. ieit-web. org/IJADC/2011. 2. 4.

DOI: 10.5813/www.ieit-web.org/ijadc/2011.2.4

Google Scholar

[6] Zhou J. J, the Parallelization Design of Reservoir Numerical Simulator, IEIT Journal of Adaptive & Dynamic Computing, 2011(2), Apr 2011, pp: 33-37. DOI=10. 5813/www. ieit-web. org/IJADC/2011. 2. 5.

DOI: 10.5813/www.ieit-web.org/ijadc/2011.2.5

Google Scholar