Design calculations and simulation dynamics of banana screen

  • Affiliations:

    Faculty of Electro - Mechanics, Hanoi University of Mining and Geology, Vietnam

  • *Corresponding:
    This email address is being protected from spambots. You need JavaScript enabled to view it.
  • Received: 19th-Feb-2020
  • Revised: 18th-Mar-2020
  • Accepted: 29th-Apr-2020
  • Online: 28th-Apr-2020
Pages: 50 - 57
Views: 4299
Downloads: 1990
Rating: 1.0, Total rating: 197
Yours rating

Abstract:

The banana screen is a device used to classify materials widely used in screenings factories at home and abroad. It's working ability depends on many factors (kinematic parameters, technological parameters, particle size, and material moisture,...). If using the traditional method to determine suitable parameters to reach high efficiency, it is very difficult. Because the calculated results are not accurate, it takes a designer much time and makes the manufacturing cost increase. In this study, the author uses the computer software CREO, ADAMS, ANSYS to design and simulate the dynamics of the screen. The results of study are the dynamic parameters of the screen during the working time and are shown in different graphs (Elastic pillow deformation of spring; the force exerted on the elastic pillow; the center velocity of vibration box; center acceleration of vibration box; static energy of vibrates box; translational momentum of vibration box; moment momentum of vibration box). These results also can be applied to design banana screens, which have a high capacity and efficiency as well as a long lifetime.

How to Cite
Nguyen, X.Van 2020. Design calculations and simulation dynamics of banana screen (in Vietnamese). Journal of Mining and Earth Sciences. 61, 2 (Apr, 2020), 50-57. DOI:https://doi.org/10.46326/JMES.2020.61(2).06.
References

Beerkircher, G, 1997. Banana screen technology. In Kawatra, S.K. (Ed.), Comminution Practices. SME, Littleton, CO, USA. 37 - 40.

Crissman, H, 1986. Vibrating screen selection. Pit and Quarry: Part I, 78(June), 39 - 44; Part II, 79(Nov.). 46 - 50.

Guo Nian Qin, 2009. Research status and development of vibrating screen at home and abroad. Nonferrous metals of the world 5. 26 - 27.

Meinel, A, 1998. Classification of fine, medium - sized and coarse particles on shaking screens. Aufbereitungs Tech 39 (7). 317 - 327.

Nguyễn Văn Xô, 2015. Phương pháp tích hợp các phần mềm Creo, Ansys, Adams trong tính toán mô phỏng 3D động lực học cơ cấu cứng mềm. Tạp chí Cơ khí Việt Nam.

Schmidt, P.; Körber, R. and Coppers, M, 2003. Sieben und Siebmaschinen: Grundlagen und Anwendung. Wiley - VCH Verlag GmbH and Co. KG aA, Weinheim.

Shi Jin Feng, 2009. Research status and development trend of vibrating screening equipment for coal. Coal mine machinery 5. 8 - 9.

Wang Feng, Wang Hao, 1998. Screening machinery. Machinery industry press, Beijing, China.

Wang Yong, 2009. Future development trend of vibration screening machinery. China powder industry 4. 54.

Wen Bang Chun, Liu Feng, Liu Jie, 1989. Vibrating screen vibrating feeder design and adjustment of vibrating conveyor. Chemical press, China.

Wills, B. A. and Finch, J. A, 2016. Wills’ Mineral Processing Technology: An Introduction to the Practical Aspects of Ore Treatment and Mineral Recovery. Butterworth - Heinemann.

Zhang Wen Bin, Zhang Long Quan, 2009. Study on the screening probability of agricultural materials in the air screen cleaning device. Agricultural mechanization research 8. 50 - 53.

Other articles