Roof plates are integral to steel structure plants, yet their construction often faces challenges related to stability, loading, and forming quality. This study aims to address these issues by introducing a 360° lock joint method for roofing plates, incorporating on-site processing and installation techniques. The method enhances the construction technology and lock joint approach, along with closing treatments to achieve optimal roof formation. Innovatively, the study upgrades the traditional high-altitude tile press from a suspension type to a floor-type loading frame. This innovation resolves common problems in roofing plate construction, including lack of support points for the steel chain, instability during work, difficulty in loading, and limited bearing range. The research concludes that the adapted press not only improves the construction process but also ensures a better final roof forming effect. The method presented here effectively resolves roofing plate construction challenges, offering practical applications for the steel structure industry. Despite the significant advancements, the study also acknowledges limitations and suggests directions for future research to further improve the method's efficiency and applicability.

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The Construction and Enhancement of the Pressed Steel Plate on the Roof of the Steel Structure Workshop

  • Yangyang Lv,
  • Wei Zhu,
  • Zhihua Chen,
  • Zihang Zhang,
  • Longfei Wang,
  • Jingshu Li,
  • Ling Li,
  • Wenlong Lu

摘要

Roof plates are integral to steel structure plants, yet their construction often faces challenges related to stability, loading, and forming quality. This study aims to address these issues by introducing a 360° lock joint method for roofing plates, incorporating on-site processing and installation techniques. The method enhances the construction technology and lock joint approach, along with closing treatments to achieve optimal roof formation. Innovatively, the study upgrades the traditional high-altitude tile press from a suspension type to a floor-type loading frame. This innovation resolves common problems in roofing plate construction, including lack of support points for the steel chain, instability during work, difficulty in loading, and limited bearing range. The research concludes that the adapted press not only improves the construction process but also ensures a better final roof forming effect. The method presented here effectively resolves roofing plate construction challenges, offering practical applications for the steel structure industry. Despite the significant advancements, the study also acknowledges limitations and suggests directions for future research to further improve the method's efficiency and applicability.