ISSN 0021-3454 (print version)
ISSN 2500-0381 (online version)

vol 64 / December, 2021

DOI 10.17586/0021-3454-2021-64-9-767-773

UDC 62-52


P. S. Toporkov
ITMO University, Faculty of Control Systems and Robotics;

Y. V. Fedosov
SC “Russian Institute for Power Radiobuilding”, Saint Petersburg, 199048, Russian Federation; ITMO University, Saint Petersburg, 197101, Russian Federation ; Engineer; Associate professor

M. Y. Afanasiev
ITMO University, Saint Petersburg, 197101, Russian Federation; Associate professor

Abstract. The issues of creation and control of a device for rapid prototyping as a part of unified information environment are considered. The research is aimed at development, adjustment and commissioning of a device for rapid prototyping of electrical products using a rational technology. The main tasks and methods of their solution are formulated. Several similar existing devices are analyzed, and their advantages and disadvantages are indicated. The device composition and diagram are described, the principles of its functioning are explained. The choice of materials used is substantiated.
Keywords: rapid prototyping, electrical products, conductive polymers, production automation, technological equipment management

  1. Shestakova I.G. Nauchno-tekhnicheskie vedomosti SPbGPU (St. Petersburg State Polytechnical University Journal), 2019, no. 2(10), pp. 20–29, DOI: 10.18721/JHSS.10202. (in Russ.)
  2. Babkin A.V., ed. Tsifrovaya ekonomika i Industriya 4.0: novyye vyzovy (Digital Economy and Industry 4.0: New Challenges), Proceedings of the Scientific and Practical Conference with International Participation, St. Petersburg, 2018, 573 р. (in Russ.)
  3. (in Russ.)
  4. (in Russ.)
  5. (in Russ.)
  6. Chao-Yang Chena, Wei-Hua Gui, Zhi-Hong Guan, Ru-Liang Wang, Shao Wu Zhou, Neurocomputing, 2017, рр. 1–9.
  7. Qin Shi, Xiaowei Cui, Sihao Zhao, Shuang Xu, Mingquan Lu, IEEE Trans. on Aerospace and Electronic Systems, 2020, DOI: 10.1109/TAES.2020.2979640.
  8. Paggi H., Lara J.A., Soriano J. Neural Computing and Applications, 2020, no. 4(32), DOI:10.1007/s00521-018-3818-1.
  9. Colombo L.J., Dimarogonas D.V. IEEE Trans. on Automatic Control, 2020, no. 11(65), pp. 4973–4980.
  10. (in Russ.)
  11. Kritzinger W., Karner M., Traar G, Henjes J., Sihn W. IFAC PapersOnLine, 2018, publik_274125.pdf.
  12. Yablochnikov E.I. Avtomatizatsiya tekhnologicheskoy podgotovki proizvodstva v priborostroyenii (Automation of Technological Preparation of Production in Instrument Making), St. Petersburg, 2002, 92 p. (in Russ.)
  13. Yablochnikov E.I. Metodologicheskiye osnovy postroyeniya ASTPP (Methodological Foundations of Building ASTPP), St. Petersburg, 2005, 84 p. (in Russ.)
  14. Andreev Yu.S., Tretyakov S.D. Promyshlennyy internet veshchey (Industrial Internet of Things), St. Petersburg, 2019, 54 p. (in Russ.)
  15. Yablochnikov E.I., Pirogov A.V., Andreev Yu.S. Avtomatizatsiya tekhnologicheskoy podgotovki proizvodstva v priborostroyenii (Automation of Technological Preparation of Production in Instrument Making), St. Petersburg, 2018, 116 p. (in Russ.)
  16. Gribovskiy A.A., Schekoldin A.I. Additivnyye tekhnologii i bystroye proizvodstvo v priborostroyenii (Additive Technologies and Fast Production in Instrument Making), St. Petersburg, 2018, 48 p. (in Russ.)
  17. Knyazeva A.G. Collection of Abstracts of the V All-Russian Scientific Seminar, December 5–6, 2019, Tomsk, 2019, 108 р. (in Russ.)
  18. Gibson I., Rosen D., Stucker B. 3D printing, rapid prototyping, and direct digital manufacturing, NY, Springer Science & Business Media, 2015, 498 p.
  19. Lipson H., Kurman M. Fabricated: The New World of 3D Printing, Indianapolis, Wiley, 2013, 302 p.
  20. Patent RU2 535 704, B22F 7/00(2006.01), B22F 3/00(2006.01), B29C 67/00(2006.01), B32B 18/00(2006.01), Method of 3d Printing on Refractory Articles, Aksel'rod L.M., Turchin M.J., Minnikhanov I.N., Application 2013118068/05, 18.04.2013, Priority 18.04.2013, Published 20.12.2014. (in Russ.)
  21. Patent RU 2 459 704 C2, B29C 67/00 (2006.01), Method of Making 3d Object, Jokhen F., Published 10.04.2011. (in Russ.)
  22. Patent 1253379, Method and apparatus for rapid prototyping using computer-printer aided to object realization, A1Wei-Hsian Lai, Chun-I Cheng, Sen-Yung Lee, Muh-Rong Wang, Chun Shan Wang, Chuh-Yung Chen, Chieh-Li Chen, Chen Hsieh, Sheng-Jye Hwang, Cheng-Chien Wang, Tzong-Shyng Leu, Published 2005-10-13.
  23. Osovskaya I.I., Novikova A.A. Termoplasty. Noveyshiye dostizheniya v tekhnologii i pererabotke polimerov. Keysy i testy (Thermoplastics. The latest Advances in Polymer Technology and Processing. Cases and Tests), St. Petersburg, 2019, 134 р. (in Russ.)
  24. Vlasov P.V., Smirnov M.A., Dmitriev I.Yu., Saprykina N.N. Russian Journal of Applied Chemistry, 2014, no. 4(87), pp. 491–495.
  25. Liu R.C., Liu Z.P. Chinese Science Bulletin, 2009, no. 12(54), pp. 2028–2032. DOI:10.1007/s11434-009-0217-0.