Structural analysis of vibration platform for panel units forming and consideration of its utilizing options

Authors

DOI:

https://doi.org/10.26906/znp.2021.56.2505

Keywords:

readjustment, pallet, vibration platform, technology, volume consolidation

Abstract

The review of the utilizing directions of the shakers of various designs for consolidation of concrete mixtures at the production of flat panel elements is executed. The major limitations and advantages of certain designs of shakers are analyzed, the main production technologies of flat reinforced concrete units in which their use is most reasonable. The evaluation of prospects for the equipment of different designs to be quickly adjusted to the production program changes is made. The main idea in the production of flat panel elements on vibrating pads using Industry 4.0 technologies is to use the latest information technology and automation and that business and engineering processes are deeply integrated.

References

Borejko V. I., Prytula M.Ju. (2011). Prospects for the production of building materials in Ukraine. Academic Journal. Problems of rational use of the socio-economic and natural resource potential of the region: financial policy and investments. XVІІ (4), 64-71

Nazarenko I.I. (1999). Machines for the production of building materials. Kyiv, KNUBA 3. Lermit R. (2007). Problems of concrete technology: Trans. with fr. / Ed. A.E. Desov. Moscow: Publishers LKI

Itkin A.F. (2009) Vibration machines for forming concrete products. Kyiv: «MP Lesya»

Nazarenko I.I., Dedov O.P., Diachenko O.S. (2018) Overview of the constructions of existing hinged vibrators and the study of the efficiency of their use to improve the compacting of reinforced concrete products on vibration platforms. Structural engineering, 39, 46-55

Delembovs'kyj M.M. (2021). Influence of operating modes and properties of elements of vibrating machines of the construction industry on reliability processes. Grail of science, 4, 209-214

Maslov O., Batsaikhan J., Salenko Yu. (2018). The theory of concrete mixture vibratory compacting. International Journal of Engineering and Technology, 7(3), 239-244

Pinţoi R., Barbu A.M., Ionescu A. (2020). Vibrations influence on concrete compaction. Applied Mechanics and Materials, 896, 355-360

Nesterenko M.P., Nesterenko M.M., Orysenko O.V., Sklyarenko T.O. (2019). Vibrating tables with the spatial oscillations of the moving frame technological properties for forming reinforced concrete products. Academic Journal. Industrial Machine Building, Civil Engineering. 2(53). 13-18

https://doi.org/10.26906/znp.2019.53.1881

Dallasega P., Rauch E., Linder C. (2018). Industry 4.0 as an enabler of proximity for construction supply chains: A systematic literature review. Computers in Industry, 99, 205-225

https://doi.org/10.1016/j.compind.2018.03.039

Wang S., Wan J., Li D., Zhang C. (2016). Implementing Smart Factory of Industrie 4.0: An Outlook. International Journal of Distributed Sensor Networks, 12, 3159805

https://doi.org/10.1155%2F2016%2F3159805

Downloads

Published

2021-09-30

How to Cite

Nazarenko, I., Diachenko, O., Pryhotskyi, V., & Nesterenko, M. (2021). Structural analysis of vibration platform for panel units forming and consideration of its utilizing options. Збірник наукових праць Галузеве машинобудування будівництво Academic Journal Industrial Machine Building Civil Engineering, 1(56), 37–42. https://doi.org/10.26906/znp.2021.56.2505