Shape forming system model of lathes two-carriage tool systems https://doi.org/10.33108/visnyk_tntu2018.03.080
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Abstract
The paper deals with the mathematical model development of shape forming of lathes with two carriage tool systems. According to the examining of shape forming system parallel as well as shape forming codes отримано the shape forming function model is developed regarding to the single-spindle two-carriage CNC lathe for performing different combinations of parallel surfaces turning. The estimation is given towards the shape forming possibilities spectrum of the single-spindle two-carriage CNC lathes. The developed shape forming function model is a basic one in the model structure of the output accuracy of modern CNC lathes for multitool machining.
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References
1. Kuznietsov Yu.M., Lutsiv I.V., eds. Tekhnolohichne osnashchennia dlia vysokoefektyvnoi obrobky detalei na tokarnykh verstatakh : monohrafiia. Kyiv – Ternopil, Terno-hraf, 2011, 692 p. [In Ukrainian].
2. Bazrov B.M. Raschet tochnosti mashin na E'VM. Moscow, Mashinostroenie, 1984, 256 p. [In Russian].
3. Reshetov D.N. Tochnost' metallorezhushhix stankov. Moscow, Mashinostroenie, 1986, 336 p. [In Russian].
4. Portman V.T. Opredelenie funkcional'nyx xarakteristik stankov na osnove analiza processa formoobrazovaniya. Stanki i instrument. Machines and tools, 1981, No. 10, pp. 1 – 3 [In Russian].
5. Ivaxnenko A.G., Kuc V.V. Predproektnye issledovaniya metallorezhushhix sistem. Kursk, Yugo-Zapadnyj gosudrstvennyj universitet, 2013, 188 p. [In Russian].
6. Anikeeva O.V. Razvitie variacionnogo metoda rascheta tochnosti metallorezhushhix stankov. Fundamental'nye i prikladnye problemy texniki i texnologij. Fundamental and Applied Problems of Engineering and Technology, 2016, No. 5, pp. 111 – 118 [In Russian].
7. Yamada M., Tanaka F., Kishinami T. Theoretical estimation method or alignment errors of vertical milling machine tools. Advanced of Intelligent Production, 1994, pp. 209 – 214.
https://doi.org/10.1016/B978-0-444-81901-7.50049-9
8. Kalchenko V.V. Modulne 3D modeliuvannia formoutvoriuiuchykh system shlifuvalnykh verstativ, instrumentiv ta obrobliuvanykh poverkhon. Visnyk Ternopilskoho derzhavnoho tekhnichnoho universytetu. Scientific journal of TDTU, 2005, No. 12, pp. 68 – 79 [In Ukrainian].
9. Kuc V.V., Maksimenko Yu.A. Obespechenie tochnosti specializirovannoj metallorezhushhej sistemy dlya obrabotki RK-profil'nyx valov na rannem e'tape proektirovaniya. Izvestiya Yugo-Zapadnogo gosudarstvennogo universiteta. Procedings of the Southwest state university Technics and Technologies, 2012, No. 2, pp. 65 – 69 [In Russian].
10. Kushnir E'.F., Portman V.T. Strukturnyj sintez raschetnyx modelej mexaniki stankov. Stanki i instrument. Machines and tools, 1991, No. 9, pp. 9 – 12 [In Russian].
11. Lutsiv I., Voloshyn V., Buhovets V. Definition of component elements position errors of integrated self-adjusting equipment for turning. Technological complexes, 2016, No. 1 (13), pp. 98 – 105.