Manufacturing Technology 2020, 20(4):429-435 | DOI: 10.21062/mft.2020.066

Experimental analysis of the universal continuous digging machine working processes

Juraj Gerlici1, Volodymyr Musiiko2, Andrii Koval2, Volodymyr Nikolaenko2, Jurii Lazaruk2, Tomas Lack1, Kateryna Kravchenko1
1 Faculty of Mechanical Engineering, University of Zilina. Univerzitná 8215/1, 010 26 Zilina. Slovak Republic
2 Faculty of Automotive and Mechanical Engineering, National Transport University. M. Omelianovicha-Pavlenka, 1, 01010 Kiev. Ukraine

The article presents the results of experimental research on creating the mobile continuous earthmoving machin-ery. Methods for performing field experimental studies and measuring equipment used are described. The article shows the data of experimental research, their analysis, the determination of physical nature of changes in exter-nal load characteristics of the machinery operating equipment. The conducted experimental studies of modern mobile earthmoving machinery enabled to establish its technical capabilities, the characteristics of the power load of the operating equipment when developing the soil. It also enabled to determine the ways and directions for mod-ernizing the operating equipment of machinery. One of the ways is to optimize technological combination of soil cutting, displacement of the developed soil to the unloading area and unloading of the actuator. The research per-formed and the results obtained have enabled to experimentally confirm the effectiveness of the technical pro-posals to create the design of the chain and bar actuators with impulse soil unloading intensifiers for trenchers implemented in the industry.

Keywords: Tensometric System, Recording Equipment, Torque and Driveshaft Rotation Speed Sensor, Hydraulic Fluid Pressure Sensor

Received: May 1, 2020; Revised: August 28, 2020; Accepted: August 30, 2020; Prepublished online: November 23, 2020; Published: December 8, 2020  Show citation

ACS AIP APA ASA Harvard Chicago IEEE ISO690 MLA NLM Turabian Vancouver
Gerlici J, Musiiko V, Koval A, Nikolaenko V, Lazaruk J, Lack T, Kravchenko K. Experimental analysis of the universal continuous digging machine working processes. Manufacturing Technology. 2020;20(4):429-435. doi: 10.21062/mft.2020.066.
Share...
Download citation
  • BibTeX (.bib)
  • Bookends (.ris)
  • EasyBib (.ris)
  • EndNote (.enw)
  • EndNote 8 (.xml)
  • ISI WoS (.isi)
  • Medlars (.medlars)
  • Mendeley (.ris)
  • MODS (.xml)
  • Papers (.ris)
  • RefWorks (.txt)
  • RefManager (.ris)
  • RIS (.ris)
  • MS Word (.xml)
  • Zotero (.ris)
    • Open full article

    References

    1. DIŽO, J., BLATNICKÝ, M. (2019). Investigation of ride properties of a three-wheeled electric vehicle in terms of driving safety. In: Transportation Research Procedia 40, pp. 663-670. ISBN 23521457 Go to original source...
    2. BARAN, P., ŠASTNIAK, P. KUKUČA, P., BREZÁNI, M. (2018). Investigation of kinematic parameters of two nonconventional piston machines with wobble board. In: MATEC Web of Conferences 157, (14 March 2018, 02003, 22nd Slovak-Polish Scientific Conference on Machine Modelling and Simulations, MMS 2017; Sklene Teplice; Slovakia). ISSN 2261236X Go to original source...
    3. SAKHNO, V., POLIAKOV, V., TIMKOV, O., KRAVCHENKO, O. (2016). Lorry convoy stability tak-ing into account the skew of semitrailer axes. In: Transport Problems 11(3), pp. 69-76. ISSN 18960596 Go to original source...
    4. KURCIK, P., BLATNICKY, M., DIZO, J. (2019). Functional calculation of a driving mechanism of a handling machine for disabled persons. In: Manufacturing Technology 19(3), pp. 455-460. ISBN 12132489 Go to original source...
    5. BLATNICKÁ, M., BLATNICKÝ, M., DIŽO, J., SÁGA, M. (2018). Comparison of analytical stress anal-ysis and numerical calculation of mobile work machine part. In: Manufacturing Technology 18(2), pp. 190-192. ISBN 12132489 Go to original source...
    6. DOMBROWSKI, M.G. Bucket Excavators. (1972). Construction, theory and calculation. Engineering, 432 p. Moscow.
    7. KRAVETS, S.V., KOVANKO, V.V., LUK'YANCHUK, O.P. (2015). Scientific bases of creation of earth-tier machines and underground mobile devices. Monograph. 322 p. The National University of Water and Environ-mental Engineering, Rivne, Ukraine.
    8. MUSIYKO, V.D. (2018). Theory and Creation of Innovative Continuous Earthmoving Machines. Monograph. 282 p. Kyiv: Lyudmila Publishing House.
    9. BYKOV, A.V. (1986). The study of the structural and kinematic parameters of the chain-beam working body of a universal digging machine. Ph.D. thesis, Kharkov National Automobile and Highway Universi-ty.
    10. GARBUZOV, Z.E., ILGISONIS, V.K., MUTUSHEV, G.A. [et al.] (1965). Continuous-action earth-moving machinery. Engineering. 276 p. Moscow.
    11. VETROV, YU. A. (1971). Soil cutting by earth-moving machinery. Engineering, 360 p. Moscow.
    12. FEDOROV, D.I. (1977). Working bodies of earth-moving machinery. Engineering, 288 p. Moscow.
    13. KOVAL, A.B. (2014). Determination of Conditions for Ensuring the Course Stability of Universal Earthmoving Machines, 218 p. National University of Transport.
    14. KRAVETS, S.V., CANT, O.V., GAPONOV, R.O., YANCHIK, T.O. (2019). Visiting date of the line and the road of the transport scraper in the lance-scraper trench excavator. In: Collection of scientific papers. Con-struction. Materials Science. Engineering. Intensification of work processes of construction and road ma-chines. Series: Hoisting-and-transport, construction and road machines and equipment 107. State Higher Educational Institution "PGASA", pp. 66-74.
    15. ACHANOV, M.E., (2013). Interaction of the working body of a trench excavator with soil in the trans-verse plane. In: Vestnik 5 (33), рр. 7 - 9. Siberian State Automobile and Highway University. ISSN 2658-5626
    16. KOTLOBAY, A. YA. et al. (2013). Formation of modernization directions for earthmoving machinery. In: Minsk: Science and technology 5, рр. 54-60. ISSN 2414-0392
    17. MUSIYKO, V.D., BLACKSMITH, A.B. (2014). Improvement of Trench Excavator with Trenchless Ro-tary Working Body. In: Collection of scientific works of the Ukrainian State Academy of Railway Transport 148 (1). Ukrainian State Academy of Railway Transport, 2014), pp. 49-54. ISSN 2413-3795
    18. SHKOLNY, A.N. (2006). Rationale for the selection of design and technological parameters of the exec-utive body of bucket-free chain trenchers, 23 p. Tomsk state university of architecture and building, Tomsk.

    This is an open access article distributed under the terms of the Attribution-NonCommercial 4.0 International License (CC BY-NC 4.0), which permits non-comercial use, distribution, and reproduction in any medium, provided the original publication is properly cited. No use, distribution or reproduction is permitted which does not comply with these terms.


    Return to the content