1. JTBP
  2. All Volumes and Issues
  3. 6(2)2024
  4. IMPROVEMENT OF STRUCTURAL AND TECHNOLOGICAL SOLUTIONS FOR ERECTION OF LARGE-SPAN COATINGS USING LIFTING MODULES

IMPROVEMENT OF STRUCTURAL AND TECHNOLOGICAL SOLUTIONS FOR ERECTION OF LARGE-SPAN COATINGS USING LIFTING MODULES

JTBP.
2024;
Volume 6, Number 2
: 1-6
https://doi.org/10.23939/jtbp2024.02.001
Received: June 26, 2024
Revised: October 30, 2024
Accepted: November 01, 2024
Authors:
  1. Oleksandr Ignatenko
  2. Volodymyr Rashkivskyi
  3. Natalia Zozulia
1
Kyiv National University of Construction and Architecture
2
Kyiv National University of Construction and Architecture
3
Kyiv National University of Construction and Architecture

The article presents an analysis of the method of lifting large-span coatings using the pull-up method and introduces a new structural-technological solution for erecting coatings using mechanized technological equipment in the form of a lifting module. According to the solution, the load-bearing beams of the coating are moved in the space between paired columns of the frame, resting on the lifting modules. Guide profiles fixed to the inner surfaces of the columns serve as supports for the alternating support of the platforms of the lifting module, which pushes the coating beams in the inter-column space. The developed solution optimizes the lifting processes and reduces the duration of lifting works by minimizing the number of installations works to operations for fixing the beams of the coating at the design height and automating the processes of pushing the coating with lifting modules.

lifting modules
erection of large-span coatings
mechanized process equipment
structural-technological solutions
pull-up method
load-bearing frame

Sobko, Yu. & Novak, Ye. (2015). Research of methods of raising large-scale structural coverings of one-story industrial buildings. Modern technologies and methods of calculations in construction, 3, 157-162, (in Ukrainian). https://doi.org/10.32347/2077-3455.2022.64.343-350
https://doi.org/10.32347/2077-3455.2022.64.343-350
Ignatenko, O. (2024). Improvement of technological solutions for erections of large-span coatings with lifting modules. Slovak International Science Journal.84. 28-35.  http://doi:10.5281/zenodo.11624363   
 Tonkacheiev, H. & Sobko, Yu. (2021). Improvement of constructive-technological decisions of installation of blocks of load-lifting establishing modules. Construction industry,71,10-14, (in Ukrainian). https://doi.org/10.36750/2524-2555.71                                                                                                              
Tonkacheiev, H., Rashkivskyi, V., & Sobko Yu. (2022). Prerequisites for the creation of lifting and collecting technological modules for the installation of structural blocks of the coating. AD ALTA: No.12/01/XXVII. 204-206. http://www.magnanimitas.cz/ADALTA/120127/papers/J_05.pdf                                                                             
Tonkacheiev, H., Rashkivskyi, V., & Dubovyk, I. (2023). Investigations of labour intensity and duration of the assembly processes of structural covering blocks. Strength of Materials and Theory of Structures.No110, 393-403, (in Ukrainian).    
https://doi.org/10.32347/2410-2547.2023.110.393-403
 Osipov, O., & Chernenko, K. (2020). Information Model of the Process of Lifting Long Span  Roof.  Science innovations, 16 (4), 3-10, 2020. 
https://doi.org/10.15407/scine16.04.003
Chernenko, K. V. (2011). History and prospects of buildings and structures of large surfaces. Kiev: ABU, KNUBA, Construction Engineering, 27, 36-41. (in Ukrainian). https://repositary.knuba.edu.ua/server/api/core/bitstreams/9ecc4582-7558...
          Sobko , Yu., & Novak , Ye. (2022). Selection of factors affecting the labor-intensiveness of the process of installation of structural plates covering single-story building. Current Problems of Architecture and Urban Planning, (64), 343-350.(in Ukrainian) https://doi.org/10.32347/2077-3455.2022.64.343-350
https://doi.org/10.32347/2077-3455.2022.64.343-350
Yang, Y., Du, H., & Men, W. (2023). Time -Varying Mechanical Analysis of Long-Span Special Steel Structures Integral Lifting in Construction Basing Building Information Model. Sustainability.15,11256.  https://doi.org/10.3390/su15411256 
https://doi.org/10.3390/su151411256
Ruan, R., Lai, M., & Lin, Y. (2023).  Integral Lifting of Steel Structure Corridor between Two Super High-Rise Building under Wind Load.Buildings.13. 2441 . https://doi.org/10.3390/buildings13102441
https://doi.org/10.3390/buildings13102441
FAGOLI Asotech. (2024). Innovative software and hardware for lifting systems with hydraulic Stand Jacks.  https://www.asotech.com/en/portfolio/innovative-software-for-lifting-equ...
SARENS GROUP. (2024). Direct Industry. Innovative solutions for hydraulic lifting system.. https://www.directindustry.com/prod/sarens-group/product-111959-1057327....
DLT Engineering. (2011). BHEL Western Division 370 tonne capacity stand jack system. DLT Engineering Reference Project.
MAMMOET (2021). Stand jack lifts, slide, support and transfer large and heavy loads along straight line.
ENERPAC (2022). The Jack-Up System with a lifting capacity of 2,000 metric tons (500 tons per unit).
ULTRACON (2022). The Stand Lifting Units (SLU). Integrated Business Park Development. Singapore.            
 Chernenko, V., & Sobko, Yu. (2016). Research of the main technological indicators influencing crane-less methods of lifting of structural coverings. New Technologies in Construction, 31, 50-58, (in Ukrainian). http://www.ntinbuilding.ndibv.org.ua/archive/2016/31/9.pdf