Experimental evaluation of the tractive effort of the chain conveyor during book block spine processing by cylindrical milling cutter at perfect binding

Knysh, Oleh; Reheі, Ivan; Kandiak, Nazar; Ternytskyi, Serhij

doi:10.2478/ama-2019-0014

Artykuł - szczegóły

Tytuł artykułu

Experimental evaluation of the tractive effort of the chain conveyor during book block spine processing by cylindrical milling cutter at perfect binding

Autorzy

Knysh Oleh , Reheі Ivan , Kandiak Nazar , Ternytskyi Serhij

Treść / Zawartość

Pełne teksty:

14_2019_033_KNYSH_REHEI_KANDIAK_TERNYTSKYI.pdf

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Identyfikatory

DOI

10.2478/ama-2019-0014

Warianty tytułu

Języki publikacji

Abstrakty

The article reports on a device for book block spines processing that was designed and assembled on a perfect binding machine Trendbinder. The article shows workability of designed device. The authors have developed a methodology for the experimental study of the tractive effort of chain conveyors by technological load, the wireless module for data measurement and software for its processing. Extensive coverage is given to experimental research of the tractive effort of chain conveyors during book block spine processing depending on book block velocity, type of paper from which they are made and setting angle of cylindrical milling cutter relatively to direction of book blocks movement. The authors have examined the change in the tractive effort. The article experimentally confirms that sluggishness of chain drive causes vibration of the tractive effort. This effect can be observed during free-running movement of chain with carriers of perfect binding machine as well as during technological load influence. The article describes that between research parameters the setting angle of cylindrical milling cutter has the main impact relatively on the direction of book blocks movement.

Słowa kluczowe

tractive effort cylindrical milling cutter chain conveyor book block perfect bonding

Wydawca

Oficyna Wydawnicza Politechniki Białostockiej

Czasopismo

Acta Mechanica et Automatica

Rocznik

2019

Tom

Vol. 13, no. 2

Strony

101--106

Opis fizyczny

Bibliogr. 23 poz., rys., wykr.

Twórcy

autor

Knysh Oleh

knolehb@gmail.com

Faculty of Computer Printing Engineering, Department of Computerized Complexes of Printing and Packaging Industries Ukrainian Academy of Printing, Lviv, 79020, Pid Goloskom street, 19, Ukraine

autor

Reheі Ivan

regey.ivan@gmail.com

Faculty of Computer Printing Engineering, Department of Computerized Complexes of Printing and Packaging Industries Ukrainian Academy of Printing, Lviv, 79020, Pid Goloskom street, 19, Ukraine

autor

Kandiak Nazar

kandyak.nazar@gmail.com

Faculty of Computer Printing Engineering, Department of Computerized Complexes of Printing and Packaging Industries Ukrainian Academy of Printing, Lviv, 79020, Pid Goloskom street, 19, Ukraine

autor

Ternytskyi Serhij

serhij86@gmail.com

Faculty of Computer Printing Engineering, Department of Computerized Complexes of Printing and Packaging Industries Ukrainian Academy of Printing, Lviv, 79020, Pid Goloskom street, 19, Ukraine

Bibliografia

1. Ambrosio J., Malça C. Ramalho A. (2016), Planar roller chain drive dynamics using a cylindrical contact force model, Mechanics Based Design of Structures and Machines, 44(1-2), pp. 109–122.
2. Egorov A., Kozlov K., Belogusev V. (2015) A method for evaluation of the chain drive efficiency, Journal of Applied Engineering Science, 13(4), 277-282
3. Fuglede N., Thomsen J.J. (2016 В), Kinematics of roller chain drives – Exact and approximate analysis, Mechanism and Machine Theory, 100, 17-32.
4. Fuglede N., Thomsen J.J., (2016 А), Kinematic and dynamic modeling and approximate analysis of a roller chain drive, Journal of Sound and Vibration, 366, 447-470.
5. James C. Conwell, G.E. Johnson (1996), Experimental investigation of link tension and roller-sprocket impact in roller chain drives, Mechanism and Machine Theory, 31(4), 533-544.
6. Junzhou Huo, Shiqiang Yu, Jing Yang and Tao Li, (2013), Static and Dynamic Characteristics of the Chain Drive System of a Heavy Duty Apron Feeder, The Open Mechanical Engineering Journal, 7, 121-128.
7. Kipphan, H. (2001), Handbook of Print Media: Technologies and Production Methods, Berlin: Springer.
8. Knysh O., Rehei I., Ternytskii S., Kandiak N., Behen P. (2019): Experimental researches of book blocks spine processing by cylindrical milling cutter during perfect binding, Australian Journal of Mechanical Engineering, DOI:10.1080/14484846.2019.1625102.
9. Kozar V. (2014), Methodology of experimental researches of trimming book magazine blocks flat cuttings tools with a curved blade edge profile, Printing and Publishing, 4 (68), 26–31 (In Ukrainian).
10. Lazutkyna N. (2013), The study of longitudinal dynamics of the chain conveyor belts, Modern problems of science and education, 5, pp.1-9 (In Russian).
11. Liu, Y.X., Zou, S.L., Tang, T., Zhou, Q.W. (2012), Study on Simulation of the Chain Transmission Mechanism. Advanced Materials Research, 591-593, 797-800.
12. Perawat T., Patiparn N., Pruet K. (2018), Wear resistance improvement of the roller chain parts at Thai Metro Industry (1973) Co., Ltd, Materials Today: Proceedings, 5(3), Part 2, 9431-9439.
13. Pereira C., Ambrósio J., Ramalho A. (2010 A), A methodology for the generation of planar models for multibody chain drives. Multibody System Dynamics, 24(3), 303-324.
14. Pereira C., Ambrósio J., Ramalho A. (2010 B), Implications of Contact Parameters on the Dynamics of Chain Drives. Key Engineering Materials, 572, 367-370.
15. Pilipenko O., Poluyan A. (2015), Dynamics of three mass chain drive in metal and polymeric implementation, International scientific and practical conference world Science Proceedings of the conference Innovative technologies in science, I, Rost Publishing, Dubai, 6- 9 (In Russian).
16. Poliudov O. M., Knysh O. B. (2014) Modern tendencies of improvement of facilities and devices for book spine treatment while perfect binding process, Scientific Papers, 3(48), 63-68 (In Ukrainian).
17. Senkus V., Kolomiiets A., Bosak V. (2015), Synthesis of chain’s speed leveling mechanism for conveyor drive, Upakovka, 3, 28-31 (In Ukrainian).
18. Tokarchuk O. (2014), Results of experimental researches from determination of hauling effort of workings organs of tube conveyer, Zbirnyk naukovyh prats (galuzeve mashynobuduvannya, budivnytstvo), N1, 52-59 (In Ukrainian).
19. Troedsson I., Vedmar L. (2001), A method to determine the dynamic load distribution in a chain drive, Sage journals, 215, 569-579.
20. Udovytskyi O., Soltys I. (2017), The study of dynamic processes during the transportation by chain conveyor. Scientific Bulletin of UNFU, 27(4), 144-147 (In Ukrainian).
21. Vatuljak, Ju. V. (2018). Improving the process of book blocks cutting during their circumferential movement, PhD diss., Ukrainian academy of printing (In Ukrainian).
22. Viniarskyi S., Knysh O. (2003), Studying of the method for the relief development on the book block spine for perfect binding of printed. Printing and Publishing, 40, 8-31 (In Ukrainian).
23. Xu L, Yang Y, Chang Z, Liu J (2010) Dynamic modeling of a roller chain drive system considering the flexibility of input shaft. Chin J Mech Eng, 23(3), 367-374.

Uwagi

Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).

Typ dokumentu

Bibliografia

Identyfikator YADDA

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