Catalog

Russian Technologies for Creation of Industry 4.0 Systems. Part 2

Authors: Eugenev G.B.	Published: 08.10.2018
Published in issue: #9(702)/2018
DOI: 10.18698/0536-1044-2018-9-18-27
Category: Mechanical Engineering and Machine Science \| Chapter: Manufacturing Engineering
Keywords: Industry 4.0, digital industrial technologies, advanced robotics, additive technologies, augmented reality, modeling of technological processes

The fourth industrial revolution, named Industry 4.0, is taking place in the world now. The objective of this revolution is to create digital industries that would dramatically increase efficiency and quality of production, the current low level of which is a challenge for Russia. In this paper, examples of application of digital industrial technologies in domestic systems are considered: programming of processing using robots, additive technology for parts production, programming of bilateral turning and milling processing, 3D modeling of technological processes. The article describes an intelligent domestic system for designing technological processes SPRUT-TP, as well as a system for operational planning and scheduling of production SPRUT-OKP, built on the basis of domestic standards and management methods.

References

[1] Industry 4.0: the Future of Smart Manufacturing. Available at: https://www.praim.com/industry-4-0-the-future-of-smart-manufacturing (accessed 15 March 2018).

[2] Industry 4.0: Laying the foundations for a new industrial revolution. Available at: https://blogs.siemens.com/en/competitive-industries.entry.html/933-industry-4-0-laying-the-foundations-for-a-new-industrial-revolution.html (accessed 15 March 2018).‎

[3] Dedicated Industry 4.0 solutions which solve real manufacturing problems. Available at: https://antsolutions.eu (accessed 15 December 2017).

[4] Embracing Industry 4.0 and Rediscovering Growth. Available at: https://www.bcg.com/capabilities/operations/embracing-industry-4.0-rediscovering-growth.aspx (accessed 3 March 2017).

[5] Industry 4.0: the fourth industrial revolution — guide to Industrie 4.0. Available at: https://www.i-scoop.eu/industry-4-0/ (accessed 28 декабря 2017).

[6] Sundblad W. Industry 4.0: The Journey Toward Perfect Production. Available at: https://www.forbes.com/sites/willemsundbladeurope/2018/07/16/industry-40-journey-toward-perfect-production/#1dfc57b24165 (accessed 28 December 2017).

[7] Chetvertaya promyshlennaya revolyutsiya (Industry Industriya 4.0) [The fourth industrial revolution (Industry 4.0 industry)]. Available at: http://www.tadviser.ru/index.php/%D1%F2%E0%F2%FC%FF:%D7%E5%F2%E2%E5%F0%F2%E0%FF_%EF%F0%EE%EC%FB%F8%EB%E5%ED%ED%E0%FF_%F0%E5%E2%EE%EB%FE%F6%E8%FF_(Industry_%C8%ED%E4%F3%F1%F2%F0%E8%FF_4.0) (accessed 15 March 2018).

[8] Programmirovanie obrabotki na oborudovanii s CHPU [Programming of machining on CNC equipment]. Ed. Evgenev G.B., Haradzhiev A.H. Vol. 1. Moscow, Bauman Press, 2018. 325 p.

[9] Programmirovanie obrabotki na oborudovanii s CHPU [Programming of machining on CNC equipment]. Ed. Evgenev G.B., Haradzhiev A.H. Vol. 2. Moscow, Bauman Press, 2018. 356 p.

[10] Sprut-tekhnologiya [Sprut-technology]. Available at: https//www.sprut.ru (accessed 10 March 2018).

[11] Chastukhin A.V., Romanov N.A. Sprut CAM – rasshirenie tekhnicheskikh vozmozhnostei [SprutCAM — expansion of technical capabilities]. RITM Mashinostroeniia [Rhythm of machinery]. 2016, no. 3, pp. 22–23.

[12] Evgenev G.B., Chastukhin M.V. Integratsiia sistem proektirovaniia i programmirovaniia tekhnologicheskikh protsessov obrabotki [Integration of processing process design and programming systems]. Inzhenernyi vestnik [Engineering bulletin]. 2015, no. 10, pp. 507–513. Available at: http://engsi.ru/doc/816454.html (accessed 10 March 2018).

[13] Osnovy avtomatizatsii tekhnologicheskikh protsessov i proizvodstv. T. 1: Informatsionnye modeli [Fundamentals of automation of technological processes and productions. Vol. 1: Information models]. Ed. Evgenev G.B. Moscow, Bauman Press, 2015. 441 p.

[14] Osnovy avtomatizatsii tekhnologicheskikh protsessov i proizvodstv. T. 2: Metody proektirovaniia i upravleniia [Fundamentals of automation of technological processes and productions. Vol. 2: Methods of design and management]. Ed. Evgenev G.B. Moscow, Bauman Press, 2015. 479 p.

[15] Tsentr SPRUT. SPRUT Tekhnologiia [Center is the SPRUT. SPRUT Technology]. Available at: https://csprut.ru/ (accessed 15 January 2018).

[16] Rubahina V.I. Sprut-Tekhnologiya: ot zhelaniy k voploshcheniyu [Octopus-Technology: from desires to realization]. Ritm Mashinostroeniya [Rhythm of Mechanical Engineering]. 2013, no. 3(81), p. 46.

[17] Smirnov V.V. Razrabotka tekhnologicheskih protsessov v sisteme SPRUT TP [Development of technological processes in the system of the OCTOPUS TP]. Biysk, ALTSTU publ., 2014. 24 p.

[18] Kriukov S.S., Rubakhina V.I. Urovni planirovaniia proizvodstva [Levels of production planning]. RITM Mashinostroeniia [Rhythm of machinery]. 2016, no. 4, pp. 63–64.

[19] Evgenev G.B. Sistemologiya inzhenernyh znaniy [Systemology of engineering knowledge]. Moscow, Bauman Press, 2001. 376 p.

[20] Evgenev G.B. Intellektual’nye sistemy proektirovaniia [Intelligent systems design]. Moscow, Bauman Press, 2012. 420 p.