Automated Screwdown Mechanism of DUO-130 Rolling Mill

L.V. Radionova; T.A. Lisovskaya; Roman A. Lisovskiy

doi:10.4028/www.scientific.net/SSP.284.1380

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HomeSolid State PhenomenaSolid State Phenomena Vol. 284Automated Screwdown Mechanism of DUO-130 Rolling...

Automated Screwdown Mechanism of DUO-130 Rolling Mill

Abstract:

The article presents an automated control system for a screwdown mechanism of a laboratory rolling mill DUO-130 developed by NPI 'Practice Equipment and Technologies', SUSU (NRU). A specific feature of the system under consideration is its integrity into control system of the whole rolling mill. The article describes the operating principle of a screwdown mechanism regulated by a step motor and advantages of the chosen control method. It also gives the structure and operating principle of the control system of a servo drive that ensures regulating of a screwdown mechanism. It also presents the process of calculating the determination precision and positioning the upper roller of a roller plate.

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Periodical:

Solid State Phenomena (Volume 284)

Pages:

1380-1384

DOI:

https://doi.org/10.4028/www.scientific.net/SSP.284.1380

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Online since:

October 2018

Authors:

L.V. Radionova, T.A. Lisovskaya, Roman A. Lisovskiy*

Keywords:

Automated Control System, Roller Gap, Rolling Mill, Screwdown Machanism, Work Roller

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References

[1] L.V. Radionova, S.R. Faizov, R.A. Lisovskiy, T.A. Lisovskaya, M.A. Zhludov, A.V. Makarov, Automated laboratory drawing mill DUO-130, Russian Internet Journal of Industrial Engineering, (2017) 46-50.

DOI: 10.24892/rijie/20170406

Google Scholar

[2] A.A. Radionov, O.S. Malakhov, L.V. Radionova, Russia, Patent 67483 (2007).

Google Scholar

[3] S.S. Voronin, D.Y. Usatyi, V.R. Gasiyarov, A.A. Radionov, Analysis of the use of cambered roll with the roll shift system CVC to adjust the gap on the hot plate mill, Russian Internet Journal of Industrial Engineering, (2015) 45-49.

DOI: 10.24892/rijie/20150108

Google Scholar

[4] L.V. Radionova, Yu.M. Subbotina, R.A. Lisovskiy, Investigation of the process of aging cold rolled and hot dip rolled products of high-strength automotive steels for cold Deformation, Russian Internet Journal of Industrial Engineering, (2016).

DOI: 10.24892/rijie/20160103

Google Scholar

[5] V.R. Gasiyarov, O.A. Gasiyarova, L.V. Radionova, To the problem of the effectiveness of the use of the friction reserve forces at continuous rolling, Russian Internet Journal of Industrial Engineering, (2015) 34-40.

DOI: 10.24892/rijie/20150106

Google Scholar

[6] E.E. Bodrov, Electromechanical and hydraulic pressure devices on continuous rolling stans, Electrotechnical systems and complexes, Magnitogorsk, (2010).

Google Scholar

[7] M.V. Kadach, V.S. Osmolovsky, V.S. Chekunov S.A., Screwdown structure of the cold-strip mill's stand and its integration into the mill's automated control system, Modern science: current problems and solutions, Lipetsk, (2015) 20-24.

Google Scholar

[8] E.A. Artamonova, Pressing devices of rolling mills, Institution Chermetinformation,, Moscow, (1988).

Google Scholar

[9] N.A. Barkov, V.P. Katruk, D.S. Voroshilov, Equipment of rolling-press-drawing shops: educational allowance, Institution Chermetinformation,, Krasnoyarsk, (1988).

Google Scholar

[10] A.P. Grudev, L.F. Mashkin, M.I. Khanin, Technology of rolling production, Metallurgy, Moscow, (1994).

Google Scholar