PRINCIPLES OF FORMATION AND DESIGNING EQUIPMENT FOR FINISHING PARTS ON SCREW ROTOR BASIS-Reference-Cited by-同舟云学术

PRINCIPLES OF FORMATION AND DESIGNING EQUIPMENT FOR FINISHING PARTS ON SCREW ROTOR BASIS

Published:2020-08-02 Issue:8 Volume:2020 Page:18-27
ISSN:1999-8775
Container-title:Bulletin of Bryansk state technical university
language:en
Short-container-title:

Author:

Sekisov Aleksandr¹,Serga Georgiy²

Affiliation:

1. Kuban State Technological University State Technological University

2. Trubilin State Agricultural University of Kuban

Abstract

There are presented technologies and equipment based on screw rotors where technological and transportation operations are combined. The methods and ways for the speed performance comparative analysis of screw rotors are shown, for that there are carried out experimental investigations to determine a motion rate of parts with different weights from rotation frequency of screw rotors of 1-4 types. The results are accumulated in alignment charts which allowed creating a procedure for an engineering calculation of screw rotors. The original designs of such operation units have Russian priority and they are presented in fifty one patents for invention of the Russian Federation. In the paper there are offered methods and ways for the comparative analysis of screw rotor speed performance, the procedure for the engineering calculation of screw rotors. There is presented a machine for finishing parts with replaceable screw rotors of 1-4 types. The productivity and reliability increase of operation in such equipment is achieved at the expense of uninterrupted supply, dosage and reliable delivery of abrasive grains and parts into the operation unit made in the form of a screw rotor, worked parts separation from abrasive grains and working wastes, damage decrease of parts worked and their marketable appearance improvement, and also labor conditions improvement for the staff. There are shown inventions developed by the authors and for which they obtained patents of the RF and the information of which may be useful at the creation of equipment for OZO parts based on screw rotors.

Publisher

Bryansk State Technical University BSTU

Subject

General Earth and Planetary Sciences,General Environmental Science

Reference15 articles.

1. Серга Г.В., Лебедев В. А. Внедрение идеологии Л. Н. Кошкина в виброупрочняющей технологии на примере винтовых роторов // Вестник РГТУ им. П. А. Соловьева. Рыбинск, 2017. №2 (41). С. 126–132., Serga G.V., Lebedev V. A. Vnedrenie ideologii L. N. Koshkina v vibrouprochnyayuschey tehnologii na primere vintovyh rotorov // Vestnik RGTU im. P. A. Solov'eva. Rybinsk, 2017. №2 (41). S. 126–132.

2. Lebedev V.A., Serga G.V., Khandozhko A.V. Increase of efficiency of finishing-cleaning and hardening procession of details based on rotor-screw technological systems // MEACS, 2017 IOP Publishing IOP Conf. Series: Materials Science and Engineering 327. Doi: 10.1088/1775-899X/327/4/042062., Lebedev V.A., Serga G.V., Khandozhko A.V. Increase of efficiency of finishing-cleaning and hardening procession of details based on rotor-screw technological systems // MEACS, 2017 IOP Publishing IOP Conf. Series: Materials Science and Engineering 327. Doi: 10.1088/1775-899X/327/4/042062.

3. Lebedev V.A. Method for calculating the power of a rotor-screw machines/ V.A. Lebedev, G.V. Serga, I.V., Davydova, T.A. Atoyan, I.G. Koshlyakova and A.V. Gordienko //MATEC Web of Conferences 226.01007(2018):https://doi.org /10.105/matecconf/201822601007 DTS-2018., Lebedev V.A. Method for calculating the power of a rotor-screw machines/ V.A. Lebedev, G.V. Serga, I.V., Davydova, T.A. Atoyan, I.G. Koshlyakova and A.V. Gordienko //MATEC Web of Conferences 226.01007(2018):https://doi.org /10.105/matecconf/201822601007 DTS-2018.

4. Lebedev V.A., Serga G.V., Davydova I.V., Atoyan T.A., Koshlyakova I.G., Gordienko A.V. Main trends in intensification of rotor-screw procession of parts // MATEC Web of Conferences226.01008(2018): https://doi.org /10.105/matecconf/201822601008 DTS-2018., Lebedev V.A., Serga G.V., Davydova I.V., Atoyan T.A., Koshlyakova I.G., Gordienko A.V. Main trends in intensification of rotor-screw procession of parts // MATEC Web of Conferences226.01008(2018): https://doi.org /10.105/matecconf/201822601008 DTS-2018.

5. Sekisov Aleksandr, Serga Georgy. Rotory-screw systems for rotary Kilns // E3S Web of Conferences 91. 02034(2019): https://doi.org /10.105/e3sconf/20199102034 TRACEE-2018., Sekisov Aleksandr, Serga Georgy. Rotory-screw systems for rotary Kilns // E3S Web of Conferences 91. 02034(2019): https://doi.org /10.105/e3sconf/20199102034 TRACEE-2018.