TEACHING AND RESEARCH LABORATORY OF SMALL-SIZED MECHINE TOOLS WITH COMPUTER MANAGEMENT ON A MODULAR PRINCIPLE

Author:

Kuznetsov Iurii, I. Sikorsky National Technical University of Ukraine «Kyiv Polytechnic Institute» (37 Pobeda Av., 03056 Kyiv, Ukraine)

Language: russian

Annotation:

Ideology of through preparation of technical intellectual elite is offered in the indissoluble chain let of acquisition of knowledge, abilities and skills: pre-school, AV, higher education - production – postgraduate school and higher doctorate. Various educational tools in technical higher education intuitions are discussed. The main attention is paid to the use of modern small table equipment with computer control and their units that can be purchased and produce your owe forces on the modular principle.

Key words:

innovation, intellectual elite, desktop computer, controlled machines, motor-spindle, modular principle, education research laboratory

References:

1. Mazein, P.G., Kasterin, A.V., Ryzhov, E.A., Sheremetev, S.V. (1996). Kompiuternyi obuchaiushchii laboratornyi stend «Stanok s ChPU» [A computer training laboratory stand CNC machine]. Cheliabinsk: Izd-vo ChGTU, 135 p. (in Russian).

2. Kuznietsov, Yu.M. (2011). Suchasnyi stan, perspektyvy rozvytku i vyrobnytstva metalorizalnykh verstativ v Ukraini [Current state and prospects of development and production of machine tools in Ukraine]. Visti AINU – Proceedings of the Academy of Engineering Sciences of Ukraine, no. 1 (44), рр. 3–8 (in Ukrainian).

3. Kuznietsov, Yu.M. (2011). Kreatyvnyi pidkhid – holovnyi instrument v innovatsiinomu proryvi [Creative approach - the main tool in the innovation breakthrough]. Intelektualna vlasnist - Intellectual property, no. 4рр. 12–16 (in Ukrainian).

4. Kuznetsov, Yu.N., Shinkarenko, V.F. (2013). Geneticheskii podkhod – kliuch k sozdaniiu slozhnykh tekhnichnykh sistem [The Genetic approach is the key to the creation of complicated Technical Systems]. Tekhnolohіchnі kompleksy- Technological complexes, Issue 1,2 (5, 6), рр. 15–2(in Russian).

5. Kuznetsov, Yu.N. (2015). Kreatologiya i innovatika – zalog uspekha v podgotovke inzhenernykh i nauchnykh kadrov [Creatology and Innovation are the keys to success in the preparation of engineering and scientific personnel]. Technics. Technologies. Education. Safety – 15. Proceeding of the International scientific technical conference. Veliko Tarnovo,vol. 5, рр. 48–51 (in Russian).

6. Kuznietsov, Yu.M. (2015). Aktualni problemy pidhotovky tekhnichnoi intelektualnoi elity v Ukraini [Current issues of technical intellectual elite training in Ukraine]. Proceedings from Razvitie nauki v XXI veke: Sbornik statei IX Mezhd. nauch.-prakt. Konferentsii - The development of science in XXI century. Conference proceedings of the IX International Scientific-practical conference. KharkovNITS Znanie, рр. 91–95 (in Ukrainian).

7. Kuznietsov, Yu.M. (2015). Evoliutcionnyi i geneticheskii sintez tekhnologicheskogo oborudovaniia novogo pokoleniia [Evolutionary and genetic synthesis of new generation technological equipment]. Rezanie i instrument v tekhnologicheskikh sistemakh - cutting and tool in technological system, Issue № 85, рр. 149–162. (in Russian).

8. Kuznietsov, Yu.M. (ed.), Dmitriev D. A., Dinevich G. E. (2010). Komponovki stankov s mekhanizmami parallelnoi struktury [Machine arrangement with parallel structure mechanisms]. Kherson: PP Vishemirskii, V. S., 471 p. (in Russian).

9. Kuznietsov, Yu.M., Dmytriiev D. O., Firanskyi, V. B., Stepanenko, O. O. (2012). Realizatsiia kontseptsii karkasnykh komponovok verstativ z mekhanizmamy paralelnoi struktury [Frame arrangements machines with parallel structure mechanisms concept implementation]. Naukovi visti NTUU «KPI» - Research Bulletin of the National Technical University of Ukraine "Kyiv Polytechnic Institute", no 1, pp. 104–111 (in Ukrainian).

10. Mazein, P. G., Panov S. S., Belenov A. A. (2010). Virtualnye i realnye trenazhery s kompiuternym upravleniem [Virtual and real computer-controlled training simulators]. Distantcionnoe i virtualnoe obuchenie - Distance and virtual learning, no 7, рр. 25–37 (in Russian).

11. Mazein, P. G., Panov, S. S. (2010). Programmno-tekhnicheskie kompleksy i tekhnologii dlia podgotovki mashinostroitelei [Mechanical Engineers training programs and technical complexes and technologies]. Proceedings from Strategiia kachestva v promyshlennosti i obrazovanii: VI Mezhdunarodnaia nauchno-tekhnicheskaia konferentciia- XII international conference: Strategy of quality in industry and education (Varna, Bolgariia, Iiun 4–11, 2010). Varna: Tekhnicheskii universitet. Vol. 2 (1), pp. 45–50 (in Russian).

12. Mazein, P. G., Savelev, A. A. (2009). Ispolzovanie innovatcionnogo potentciala universiteta v oblasti informatcionnykh tekhnologii dlia razvitiia sredstv podgotovki mashinostroitelei [Using University innovative potential in the field of information technologies for the development of machine engineers training means]. Prepodavanie informatcionnykh tekhnologii v RossiiMaterialy otkrytoi Vserossiiskoi konferentcii - IT Education in Russia: Proceedins of the All-Russian Conference (Chelyabinsk, March 18–19, 2009): Chelyabinsk, South Ural State University (in Russian).

13. Panov, S. S., Mazein, P. G. (2011). Uchebno-issledovatelskii stend tipa «tripod» s parallelnoi kinematikoi i kompiuternym upravleniem [Educational and research stand of the "tripod" type with parallel kinematics and computer-control]. Izvestiia Samarskogo nauchnogo tcentra Rossiiskoi akademii nauk  Proceedings of the Samara Scientific Center of the Russian Academy of Sciences, Vol. 13, no  1 (3), pp. 724–729 (in Russian).

14. Tartashvili, T. A.KlekoIu. Ia (ed.) (1988). Sistema podgotovki intellektualnoi elity v SShA [the US intellectual elite training system]. Moscow, 68 p. (in Russian).

15.Shynkarenko, V. F. (2002). Osnovy teorii evoliutsii elektromekhanichnykh system [Fundamentals of the theory of electromechanical systems evolution]. Kyiv : Naukova dumka, 288 p. (in Ukrainian).

16.Shinkarenko, V. F., Kuznetcov Iu. N. (2015) . Mezhdistciplinarnyi podkhod k modelirovaniiu i sozdaniiu slozhnykh elektromekhanicheskikh sistem na primere motor-shpindele [Interdisciplinary approach to modeling and creation of complex electromechanical systems on the example of the motor-spindle]. Suchasni tekhnolohii promyslovoho kompleksu: Materialy Vseukrainskoi konferentsii - Modern technologies of industrial complex: Proceedins of the All-Ukrainian scientific-practical conference. Kherson : KhNTU, рp. 8–13 (in Russian).

17.Shinkarenko, V. F. (2011). Geneticheskoe predvidenie kak sistemnaia osnova v strategii upravleniia innovatcionnym razvitiem tekhnicheskikh sistem [Genetic prediction of how systemic basis in the management strategy of technical systems innovative development].Pratsi Tavriiskoho derzhavnoho ahrotekhnichnoho universytetu – Works of Tavria State Agrotechnological University, Issue 11, vol. 4, pp. 3–19 (in Russian).

18. Kuznetsov Y., Shinkarenko V. (2011). The genetic approach is the key to innovative Synthesis of complicated Technical systems. Journal TU – Plovdiv, Fundaments Sciences and Applications, vol. 16, (2), pp.15 33 (in English).

19. Kuznetsov Y., Shinkarenko, V., Gaidaienko Y.,  Oleynik K. (2013). The operability analysis of spindle-motor hybrid electromechanical systems. Proceedings of the 13-th Anniversary International Scientific Conference : Unitech-13 (BulgariaGagrovo, November 21–23, 2013), vol. 3, pp. 268–272 (in English).

20. Manzhola M., Kuznetsov Y., Stepanenko O. (2015). Kinematic analysis of a multiaxis mailing machine with the mechanism of parallel structuresTechnological Complexes. Scientific journal, no 1/1 (11)pp. 18–24 (in English).

21. Shinkarenko V., Kuznetsov Y., Salenko A., Gaidaienko Y., Oleynik E., Chenchevaya E. (2014). Genetic Program of Structural Evolution and Synthesis of Spindle-Motor Hybrid Electromechanical SystemsJournal of the Technical University of GabrovoGabrovo:Technical University, vol. 48, pp.126–134 (in English).

Download