WJM  Vol.4 No.12 , December 2014
Theoretical and Experimental Studies of the Effect of Inclined Scraper on Removal of Raw Cotton from Mesh Surface
ABSTRACT
The present manuscript deals with theoretical and experimental studies of the effect of inclined scraper on removal raw cotton from mesh surface. The mathematical model of the problem and theoretical studies of the motion of cotton mass on plane of scraper is derived taking into account material point by accomplishing plane motion in the mesh surface. Graphs of the experiment shows that performance of scraper inclined to the radius of the disk by the value α=30° to the surface mesh β=110°, optimally allows to reduce the formation of technological defects of raw cotton. The presence of zero-pressure portion on the mesh surface of separator may provide complete removal of cotton from its surface and to eliminate grid clogging.

Cite this paper
Muradovich, M. , Ismonovich, K. and Mardanovich, M. (2014) Theoretical and Experimental Studies of the Effect of Inclined Scraper on Removal of Raw Cotton from Mesh Surface. World Journal of Mechanics, 4, 371-377. doi: 10.4236/wjm.2014.412036.
References
[1]   Tadaeva, E., Abdukahhorov, Z., Sharifboev, N. and Ismanov, M. (2013) Study of Vibrational Shift of Raw Cotton to Inlined Mesh Surface.

[2]   Muradov, R., Karimov, A.I. and Azizov, Sh. (2003) Reducing the Force of Impact on Cotton, Stone Catcher in the Working Chamber. Problem of Mechanics, 1.

[3]   Muradov, R. (2003) Improving Loading Device of Raw Cotton Taken from the Separator. Problem of Mechanics, 1.

[4]   Muradov, R. and Sarimsakov, A. (1996) Catcher of Heavy Impurities. А.С. No. 1747546.

[5]   Mardonov, B., Tadaeva, Y. and Muhammadziyo, I. (2014) Experimental and Theoretical Studies of Vibrational Motion of Raw Cotton on Inclined Mesh Surface. International Journal of Innovation and Scientific Research, 9, 78-85.

[6]   Muradov, R.M., Karimov, A.I. and Saidnugmanov, U.R. (2014) Theoretical Study of Stone Catcher with Many Pockets during the Primary Cotton Cleaning Process. International Journal of Innovation and Scientific Research, 2, 287-295.
http://www.ijisr.issr-journals.org/abstract.php?article=IJISR-14-119-05

[7]   Abdusamat, K., Mamatovich, A.S. and Muhammadziyo, I. (2014) Mathematical Modeling of the Technological Processes Original Processing of Cotton. International Journal of Innovation and Applied Studies, 6, 28-39.
http://www.ijias.issr-journals.org/abstract.php?article=IJIAS-14-031-01

[8]   Mamatovich, A.S., Abdusamat, K. and Arras, P. (2013) The Mathematical Simulation of Brush Drums in a Dual Saw Cylinder Chamber Gin for the Purpose of Increasing the Quantity of Captured Cotton Fiber from Saw. World Journal of Mechanics, 3, 58-61.
http://dx.doi.org/10.4236/wjm.2013.31004

[9]   Ismanovich, K.A. and Mamatovich, A.S. (2013) The Simulation of Ginning Machine and Working Parts for Fiber Quality and Productiv. 2nd International Conference and Exhibition on Materials Science & Engineering, Las Vegas, 7-9 October 2013.
http://dx.doi.org/10.4172/2169-0022.S1.011

[10]   Mamatovich, A.S. and Abdusamat, K. (2011) Definition of Increasing the Fibre Capturing Surface of Saw Teeth of Cotton Ginning Machine through Mathematic Modelling. World Journal of Mechanics, 1, 122-126.
http://dx.doi.org/10.4236/wjm.2011.13017

[11]   Mamatovich, A.S. and Abdusamat, K. (2013) The Theoretical Research of the Stress Condition of Shaft in the Single Cylinder and Dual-Cylinder Single-Chamber Saw Gin. 2nd International Conference and Exhibition on Materials Science & Engineering, Las Vegas, 7-9 October 2013.
http://dx.doi.org/10.4172/2169-0022.S1.011

[12]   Muradov, R. and Karabelnikov, R.B. (1996) Increase Efficiency of Stone Catcher by Using More Chambers. International Technical Conference at NamEEI, Namangan.

[13]   Muradov, R. and Obidov, A. (2002) New Design of Stone Catcher in Cotton Processing. International Conference at NamEEI, Namangan, 407-411.

 
 
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