Experimental evaluation of eccentric mechanism power loading of movable pressure plate in die-cutting press

• Autorzy: Knysh Oleh , Rehei Ivan , Kandiak Nazar , Ternytskyi Serhij , Ivaskiv Bohdan

Identyfikatory

DOI

10.2478/ama-2022-0032

• Języki publikacji: EN

Abstrakty

EN

The paper reports experimental research on torques during cardboard cutting in the die-cutting press with eccentrics in the drive of the movable pressure plate. To conduct the research, an experimental bench with eccentrics in the drive of the die-cutting press is designed and manufactured. The manufactured experimental device for the research on cardboard blanks provides the possibility of getting dependencies of loadings at different parameters of the die-cutting process. The experimental approach envisages the use of the strain gauge measurement method and the wireless module for data collecting, as well as the software for its processing, for getting trustworthy results with minimum faults. The method gives an opportunity to study the torque values during the cardboard-cutting efforts on the drive shaft. The paper shows changes in the torque value on the drive shaft during the kinematic cycle with and without the use of cardboard blank. The angle of the drive shaft rotation during the cutting process was evaluated at selected values of the cardboard thickness. The relationship between the linear cutting efforts and the cardboard thickness, its fibre direction, cutting rule type and rotational speed of the drive shaft is elaborated. This kind of data is approximated by a logarithmic function (logarithmic curve), at R2 from 0.90 to 0.98. The thickness of the cardboard significantly influences the value of the linear cutting effort at all the studied parameters.

Słowa kluczowe

EN

die cutting press; cutting; cardboard; linear cutting effort; cutting rule; torque; eccentric

• Wydawca: Oficyna Wydawnicza Politechniki Białostockiej
• Czasopismo: Acta Mechanica et Automatica
• Rocznik: 2022
• Tom: Vol. 16, no. 3
• Strony: 266--273
• Opis fizyczny: Bibliogr. 23 poz., rys., tab., wykr.

Twórcy

autor

Knysh Oleh

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

• https://orcid.org/0000-0001-5854-1879

autor

Rehei Ivan

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

• https://orcid.org/0000-0002-3395-2994

autor

Kandiak Nazar

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

• https://orcid.org/0000-0002-4720-3935

autor

Ternytskyi Serhij

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

• https://orcid.org/0000-0002-3814-9762

autor

Ivaskiv Bohdan

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

• https://orcid.org/0000-0001-7637-7160

Bibliografia

• 1. Rudawska A, Čuboňova N, Pomarańska K, Stančeková D, Gola A. Technical and organizational improvements of packaging production process, Advances in Science and Technology. 2016;10(30):182—192.
• 2. Emblem A, Emblem H. Packaging technology Fundamentals, Materi-als and Processes. 2012.Oxford: Woodhead Publishing.
• 3. Kirwan MJ. Handbook of Paper and Paperboard Packaging Technol-ogy. 2013.Oxford: John Wiley & Sons.
• 4. Rehei І. Consumer Cardboard Packaging: Materials, Materials, Design, Manufacturing Equipment.2011.Ukrainian Academy of Print-ing, Lviv, 1–144. (in Ukrainian).
• 5. Khvedchyn YY, Zelenyi VV. Analysis of The Mechanisms of Press in Die-cutting Automat, Scientific Papers. 2014;4(49):21-30 (in Ukraini-an).
• 6. Kuznetsov VO, Kolomiets AB, Dmitraschuk VS. Parametric Re-searches of the Press Plate Drive in Die-cutting Automat, Upakovka. 2012;6:31-34 (in Ukrainian).
• 7. Kuznetsov VO, Rehei II, Vlakh VV. Modification of a Drive Mecha-nism of a Press Plate in a Die-cutting, Press, Printing and Publishing. 2017;1:56–62 (in Ukrainian).
• 8. Lin W, Zhou C, Huang W. Optimum design for mechanical Structures and material Properties of the dual-elbow-bar mechanism, Hindawi Advances in Materials Science and Engineering. 2015.
• 9. Shakhbazov YO, Cheterbukh ОY, Shyrokov VV, Palamar OO. The drive mechanism of a pressure plate of a flat die-cutting press, Print-ing and Publishing. 2020;1(79):112-120 (in Ukrainian).
• 10. Behen PI, Radikhovskyi IA, Mlynko OI. Die-cutting Press wit Using a Lead Screw Transmission (Investigation of Pressure Plate Kinematic Parameters), Upakovka. 2020;1:44–45 (in Ukrainian).
• 11. Rehei ІІ, Knysh OB, Behen PI, Radikhovsky IA, Mlynko OI. Drive of The Pressure Plate of the Die-cutting Press on The Basis of Using the Screw Nut Transmission (Method of Evaluation of Consumption Power Components), Scientific Papers. 2020;1(60):98–107 (in Ukrainian).
• 12. Ternytskyi S, Rehei I, Kandiak N, Radikhovskyi I, Mlynko O. Experi-mental research of paperboard cutting in die cutting press with the screw–nut transmission of drive mechanism of a movable pressure plate, Acta Mechanica et Automatica. 2021;15(3):122–131.
• 13. Іvanko І, Pidvyshenna O. Usage of a two-chamber pneumatic mod-ule for cutting contours in cardboard scans, Technology and Tech-nique of Typography. 2021;3(73):71–81 (in Ukrainian).
• 14. Happonen, A, Stepanov A, Piili H, Salminen A. Innovation Study for Laser Cutting of Complex Geometries with Paper Materials, Physics Procedia. 2015;78:128–137.
• 15. Pinćjer I, Miketić N, Tomić I, Adamović S. Exploring the Various Parameters of CO2 Laser in the Cutting of Paper. Paper presented at the 10th International Symposium on Graphic Engineering and De-sign GRID 2020, Novi Sad, Serbia, November 12–14.
• 16. Fadiji T, Berry T, Coetzee C.J, Opara U. Investigating the mechanical properties of paperboard packaging material for handling fresh pro-duce under different environmental conditions: Experimental analysis and finite element modelling. The Journal of Applied Packaging Re-search. 2017;9:20-34.
• 17. Garbowski T, Gajewski T, Grabski J. Estimation of the Compressive Strength of Corrugated Cardboard Boxes with Various Perforations, Energies. 2021;14(4):1095.
• 18. Schicher R, Wegener G. Measuring Torque Correctly, Hottinger Baldwin MesstechnikGmbh, Germany. 2002.
• 19. Hilal MM, Mohamed HS, Petroczki K, AwadKhidir E. An Improved Strain Gauge-Based Dynamic Torque Measurement Method. Interna-tional Journal of Circuits, Systems and Signal Processing. 2013;1(7):66-73.
• 20. Knysh O, Rehei I, Kandiak N, Ternytskyi S. Experimental Evaluation of the Tractive Effort of the Chain Conveyor during Book Block Spine Processing by Cylindrical Milling Cutter at Perfect Binding, Acta Me-chanica et Automatica. 2019;13(2):101–106.
• 21. Banakh YO, Chekhman YI, Ternytskyi SV. The research method of technological forces at producing involutes of cardboard packing, Scientific Papers. 2011;3(36):229-235 (in Ukrainian).
• 22. Chekhman YI. Ternytskyi SV. Analysis of the phenomen that accom-pany the process of diecutting the involute of cardboard package, Upakovka. 2012;3:28–33 (in Ukrainian).
• 23. Gorvat AA, Molnar OO, Minkovich VV. Metodiobrobki eksperimental-nikh danikh z vikoristannyam MS Excel. Vidavnicztvo UzhNU «Goverla». 2019. (in Ukrainian).