Optimization technique of organizational and technological structures of systems of small batch assembly of complex mechanical engineering products

Authors

  • Антон Олегович Скоркін Ukrainian Engineering Pedagogics Academy, Str. University, 16, Kharkov, Ukraine, 61000, Ukraine

DOI:

https://doi.org/10.15587/2312-8372.2014.21249

Keywords:

manufacturability, hydraulic unit, assembly coefficient, 3-D model, basing, simulation

Abstract

The optimization technique of organizational-technological and technical preparation of assembly production of complex mechanical engineering products is considered in the paper.

Development trends of modern assembly production consist in continuous increase in production output in terms of both nomenclature and volume and lead to the steady growth of unit man-hours of assembly operations, and, consequently, to the growth of demands for production facilities and increase in the number of workers, employed in the assembly production (especially at its final stages).

As is known, the common problem of machine manufacturing consists of technological tasks, including the parts manufacturing accuracy and assembly process quality. If the first problem is solved at the optimization stage of parts machining, the second finds the solution at the final stage of machine manufacturing in conditions of assembly production technology. Labor productivity in small-batch assembly production of complex mechanical engineering products also appears to depend on subjective factors, and its level tends to periodic change.

The introduction of automated design systems of assembly processes, based on simulation techniques is the effective solution to these problems.

The paper gives the operation principle of the simulation system, which allows to develop the structure of technological operations, and provides a minimum assembly time of complex mechanical engineering products in small-batch production conditions.

Author Biography

Антон Олегович Скоркін, Ukrainian Engineering Pedagogics Academy, Str. University, 16, Kharkov, Ukraine, 61000

Assistant

Department of cutting equipment and transport systems

References

  1. Корсаков, B. C. Автоматизация проектирования технологических процессов в машиностроении [Текст]/ B. C. Корсаков, Н. М. Капустин; под ред. Н. М. Капустина. – М.: Машиностроение, 1985. – 304 с.
  2. Соломеицев, Ю. М. Автоматизированное проектирование и производство в машиностроении [Текст]/ Ю. М. Соломеицев, В. Г. Митрофанов, А. Ф. Прохоров и др.; под ред. Ю.М. Соломенцева, В. Г. Митрофанова. – М.: Машиностроение, 1986. – 255 с.
  3. Балакшин, Б. С. Теория и практика технологии машиностроения [Текст]: в 2-х кн. / Б. С. Балакшин; под ред. Б. М. Базрова, И. М. Колесова, Ю. М. Соломенцева и др. – М.: Машиностроение, 1982. – 367 с.
  4. Филонов, И. П. Проектирование технологических процессов в машиностроении [Текст]: учеб. пос. для вузов/ Г. Я. Беляев, Л. М. Кожуро и др.; под общ. ред. И. П. Филонова. – Мн.: УП «Технопринт», 2003. – 910 с.
  5. Челищев, Б. Е. Автоматизация проектирования технологии в машиностроении [Текст]/ Б. Е. Челищев, И. В. Боброва, А. Гонсалес-Сабатер. – М.: Машиностроение, 1987. – 264 с.
  6. Вавилов, A. A. Имитационное моделирование производственных систем [Текст] / под общ. ред. A. A. Вавилова. – М.-Берлин: Машиностроение, 1983.
  7. Адгаманов, Р. И. Автоматизация мелкосерийного машиностроительного производства и качество продукции [Текст] / Р. И. Адгаманов, В. М. Белоног, Ю. Н. Блощицин и др. – М.: Машиностроение, 1983. – 280 с.
  8. Алексеев, П. И. Гибкие производственные системы сборки [Текст]/ П. И. Алексеев, А. Г. Герасимов, Э. П. Давыденко и др.; под общ. ред. А. И. Федотова. – Л.: Машиностроение, 1989. – 349 с.
  9. Manola, F. Object-oriented knoledgebases [Text] / F. Manola. – Apr. 1990. –P. 46-57.
  10. Myers, W. Interactiv Graphics: Flying High [Text] / W. Myers // Computer. – July 1979. – P. 8-11.
  11. Shigley, J. E. Mechan/ [Text] / J. E. Shigley // Eng. Design. – 3rd ed. – McGraw-Hill Book Company, NewYork, 1977.
  12. Korsakov, B. C., Kapustin, N. M.; In: Kapustin, N. M. (1985). Avtomatizatsiia proektirovaniia tekhnolohicheskikh protsessov v mashinostroenii. M.: Mashinostroenie, 304.
  13. Solomeitsev, Yu. M., Mitrofanov, V. H., Prokhorov, A. F. and others; In: Solomentseva, Yu. M., Mitrofanova, V. H. (1986). Avtomatizirovannoe proektirovanie i proizvodstvo v mashinostroenii. M.: Mashinostroenie, 255.
  14. Balakshin, B. S.; In: Bazrov, B. M., Kolesov, I. M., Solomentsev, Yu. M. and others. (1982). Teoriia i praktika tekhnolohii mashinostroeniia. In 2 books. M.: Mashinostroenie, 367.
  15. Beliaev, H. Ya., Kozhuro, L. M. and others; In: Filonov, I. P. (2003). Proektirovanie tekhnolohicheskikh protsessov v mashinostroenii. Mn.: UP «Tekhnoprint», 910.
  16. Chelishchev, B. E., Bobrova, I. V., Honsales-Sabater, A. (1987). Avtomatizatsiia proektirovaniia tekhnolohii v mashinostroenii. M.: Mashinostroenie, 264.
  17. In: Vavilov, A. A. (1983). Imitatsionnoe modelirovanie proizvodstvennykh sistem. M.-Berlin: Mashinostroenie.
  18. Adhamanov, R. I., Belonoh, V. M., Bloshchitsin, Yu. N. and others. (1983). Avtomatizatsiia melkoseriinoho mashinostroitel'noho proizvodstva i kachestvo produktsii. M.: Mashinostroenie, 280.
  19. Alekseev, P. I., Herasimov, A. H., Davydenko, E. P. and others; In: Fedotov, A. I. (1989). Hibkie proizvodstvennye sistemy sborki. L.: Mashinostroenie, 349.
  20. Manola, F. (Apr. 1990). Object-oriented knoledgebases, 46-57.
  21. Myers, W. (July 1979). Interactiv Graphics: Flying High. Computer, 8-11.
  22. Shigley, J. E. (1977). Mechan. Eng. Design. Ed 3. McGraw-Hill Book Company, NewYork.

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Published

2014-02-06

How to Cite

Скоркін, А. О. (2014). Optimization technique of organizational and technological structures of systems of small batch assembly of complex mechanical engineering products. Technology Audit and Production Reserves, 1(2(15), 18–21. https://doi.org/10.15587/2312-8372.2014.21249

Issue

Vol. 1 No. 2(15) (2014): Production reserves. Economy of enterprise

Section

Production reserves

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Copyright (c) 2016 Антон Олегович Скоркін

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