Realization of optimum mode of movement of roller forming installation on acceleration of fourth order
Abstract
Abstract. For the purpose of increase in reliability and durability of roller forming installation the optimum mode of back and forth motion of the forming cart on acceleration of the fourth order is calculated. Kinematic characteristics of the forming cart at the optimum mode of the movement on acceleration of the fourth order are calculated. The design of roller forming installation with the drive from the high-moment step engine which is built in the rolling rollers of the forming cart is offered and provides the optimum mode of back and forth motion of the forming cart on acceleration of the fourth order. Use in installation of the specified driving mechanism leads to improvement of quality of a surface to the processed concrete mix, reduction of dynamic loadings in elements of the driving mechanism, to disappearance of excess destructive loads of a frame design and, respectively, to increase in reliability and durability of installation in general.
Key words: roller forming installation, mode of the movement, step engine, drive.
References
References
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Loveykіn, V. S., Pochka, K. І. (2017). Synthesis of camshaft driving mechanism in roller molding installation with combined motion mode according to acceleration of third order. Science & Technique. Minsk. BNTU. No 16(3). 206-214. DOI:10.21122/2227-1031-2017-16-3-206-214.
Loveykin, V. S. (1990). Calculations of the opti-mum modes of the movement of mechanisms and cars. Manual. Kyiv. UMK VO. 168.
Loveykіn, V. S., Pochka, K. І., Chovnjuk, Ju. V., Dikteruk, M. G. (2014). Patent of Ukraine for an invention № 105744. Installation for formation of prod-ucts from concrete mixes. № а201309305 it is stated 25.07.2013; it is published 10.06.2014. Bulletin № 11.
Список літератури
Garnec V. M. The progressive the forming units and complexes of concrete. Kyiv. Budіvelnyk. 1991. 144 p.
Kuzin V. N. Technology of roller formation of flat articles from fine-grained concrete: The abstract of the thesis for a degree of the candidate of science. Moscow. 1981. 20 p.
Rjushin V. T. Research of working process and de-velopment of a method of calculation of cars of roller formation of concrete mixes. The thesis for a degree of Candidate of Technical Sciences. Kyiv. 1986. 186 p.
Loveykіn V. S., Garnec V. M., Pochka K. І. Patent of Ukraine for an invention № 67091 A. Installation for formation of products from concrete mixes. № u2003076371 it is stated 08.07.2003; it is published 15.06.2004. Bulletin № 6.
Loveykіn V. S., Pochka K. І. The dynamic analysis of roller forming installation with the rekuperativ drive. Dynamics. durability and reliability of farm vehicles: Works of the First International scientific and technical conference (DSR AM - I). on October 4-7. 2004. Ternopil (Ukraine). P. 507-514.
Loveykіn V. S., Pochka K. І. The power analysis of roller forming installation with the rekuperativ drive. Sci-entific and technical magazine «Technology of construc-tion». Kyiv. 2003. No 14. P. 27-37.
Loveykіn V. S., Pochka K. І. The analysis of une-venness of the movement of roller forming installation with the rekuperativ drive. Scientific and technical and production magazine «Hoisting-and-transport equip-ment». 2005. No 4. P. 19-33.
Loveykіn V. S., Pochka K. І., Palamarchuk D. A. Optimization of design data of the driving mechanism of roller forming installation with the rekuperativ drive. Sci-entific and technical magazine «Technology of construc-tion». Kyiv. 2004. No 15. P. 40-48.
Pochka K. І. Development and the analysis of roll-er forming installation with the rekuperativ drive. The abstract of the thesis for a degree of Candidate of Tech-nical Sciences. Kyiv. KNUCA. 2008. 24 p.
Loveykіn V. S., Kovbasa V. P., Pochka K. І. The dynamic analysis of roller forming installation with ener-getically balanced drive. Scientific Herald of NULES of Ukraine. Series: Technique and energy of APK. Kyiv. 2010. No 144. part 5. P. 338-344.
Loveykіn V. S., Kovbasa V. P., Pochka K. І. The power analysis of roller forming installation with energeti-cally balanced drive. Scientific bulletin of the Tavriysky state agro technological university. Melіtopol. 2011.
No 1. Tom 2. P. 16-23.
Loveykіn V. S., Pochka K. І. The analysis of une-venness of the movement of roller forming installation with energetically balanced drive. Vibrations in the equipment and technologies. 2010. No 4 (60). P. 20-29.
Loveykіn V. S., Pochka K. І. Optimization of de-sign data of roller forming installation with energetically balanced drive. MOTROL. Motorization and power industry in agriculture. Lublin. 2010. Tom 12 B. P. 9-18.
Loveykіn V. S., Pochka K. І. The analysis of the movement of roller forming installation with the balanced drive. Bulletin of the Kharkiv national automobile and road university. 2004. No 27. P. 95-101.
Loveykіn V. S., Pochka K. І. The power analysis of roller forming installation with the balanced drive. Sci-entific bulletin of National agricultural university. 2005. No 80. P. 346-356.
Loveykіn V. S. Assessment of the movement of mechanisms and cars. Hoisting-and-transport equipment. Kyiv. Tehnika. P. 16-18.
Lovejkіn V. S., Shumіlov G. V. Optimization of the mode of change of a departure of the tower crane behind single kinematic criteria. MOTROL. Motorization and power industry in agriculture. Lublin. 2011. Tom 13 B. P. 167-174.
Loveykіn V. S., Pochka K. І. The analysis of une-venness of the movement of roller forming installation with the balanced drive. MOTROL. Commission of Mo-torization and Energetics in Agriculture. Lublin-Rzeszow. 2015. Vol. 17. No 3. P. 17-27.
Loveykіn V. S., Pochka K. І. Analysis of dynamic equilibration by the drive of cars of roller formation. MOTROL. Commission of Motorization and Energetics in Agriculture. Lublin-Rzeszow. 2016. Vol. 18. No 3.
P. 41-52.
Loveykіn V. S., Pochka K. І. Dynamic optimiza-tion of the mode of reversal of roller forming installation. Collection of scientific tinders «Mechanical engineering». Harkіv. Ukrainian engineering and pedagogical academy. 2015. No 15. P. 76-86.
Loveykіn V. S., Pochka K. І. Optimization of the breakthrough mode of reversal of roller forming installa-tion. Scientific Herald of NULES of Ukraine. Series: Technique and energy of APK. Kyiv. 2015. No 212.
part 1. P. 186-197.
Loveykіn V. S., Pochka K. І. Optimization of the mode of reversal of roller forming installation on acceler-ation of the third order. Bulletin of the Donbass state ma-chine-building academy: collection of scientific works. Kramatorsk. 2015. No 3 (36). P. 16-26.
Loveykіn V. S., Pochka K. І. Synthesis of cam-shaft driving mechanism in roller molding installation with combined motion mode according to acceleration of third order. Science & Technique. Minsk. BNTU. 2017. No 16(3). P. 206-214. DOI:10.21122/2227-1031-2017-16-3-206-214.
Loveykin V. S. Calculations of the optimum modes of the movement of mechanisms and cars. Man-ual. Kyiv. UMK VO. 168.
Lovejkіn V. S., Pochka K. І., Chovnjuk Ju. V., Dikteruk M. G. Patent of Ukraine for an invention № 105744. Installation for formation of products from con-crete mixes. № а201309305 it is stated 25.07.2013; it is published 10.06.2014. Bulletin № 11.
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