A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
To enable keeping strength required to resist an external force applied on a civil engineering structure by a steel frame and a filling material, saving weight by decreasing amount of steel material to be used, and maintaining a shape of the steel frame.SOLUTION: A civil engineering structure has a plurality of steel frames 10 connected to each other in a height direction H and a width direction W and a filling material charged in the steel frame 10. The steel frame 10 includes, as frame materials, a pair of column materials 11, 12, a pair of beam materials 13, 14 to connect an upper end and a lower end of the pair of column materials 11, 12 in the width direction W, joint materials 15, 16 to connect the upper end and the lower end of the column materials 11, 12 facing in depth direction, and a brace material 17 connecting the upper end of the column material 11 and the lower end of the column material 12. The frame materials are connected with each other by a pin structure.SELECTED DRAWING: Figure 2
【課題】鋼製枠及び中詰材によって土木構造物に作用する外力に抵抗するために必要な強度を維持しつつ、使用する鋼材の使用量を減らし軽量化を図るとともに、鋼製枠の形状維持を可能にする。【解決手段】高さ方向H及び幅方向Wに互いに連結された複数の鋼製枠10と、鋼製枠10に充填されている中詰材と、を備え、鋼製枠10は、一対の柱材11,12と、一対の柱材11,12それぞれの上端部及び下端部を幅方向Wに連結する一対の梁材13,14と、奥行き方向に対向する柱材11,12の上端部及び下端部を連結する繋ぎ材15,16と、柱材11の上端部と柱材12の下端部とを連結するブレース材17と、を枠材として含み、枠材は、互いにピン構造により連結されていることを特徴とする。【選択図】図2
To enable keeping strength required to resist an external force applied on a civil engineering structure by a steel frame and a filling material, saving weight by decreasing amount of steel material to be used, and maintaining a shape of the steel frame.SOLUTION: A civil engineering structure has a plurality of steel frames 10 connected to each other in a height direction H and a width direction W and a filling material charged in the steel frame 10. The steel frame 10 includes, as frame materials, a pair of column materials 11, 12, a pair of beam materials 13, 14 to connect an upper end and a lower end of the pair of column materials 11, 12 in the width direction W, joint materials 15, 16 to connect the upper end and the lower end of the column materials 11, 12 facing in depth direction, and a brace material 17 connecting the upper end of the column material 11 and the lower end of the column material 12. The frame materials are connected with each other by a pin structure.SELECTED DRAWING: Figure 2
【課題】鋼製枠及び中詰材によって土木構造物に作用する外力に抵抗するために必要な強度を維持しつつ、使用する鋼材の使用量を減らし軽量化を図るとともに、鋼製枠の形状維持を可能にする。【解決手段】高さ方向H及び幅方向Wに互いに連結された複数の鋼製枠10と、鋼製枠10に充填されている中詰材と、を備え、鋼製枠10は、一対の柱材11,12と、一対の柱材11,12それぞれの上端部及び下端部を幅方向Wに連結する一対の梁材13,14と、奥行き方向に対向する柱材11,12の上端部及び下端部を連結する繋ぎ材15,16と、柱材11の上端部と柱材12の下端部とを連結するブレース材17と、を枠材として含み、枠材は、互いにピン構造により連結されていることを特徴とする。【選択図】図2
CIVIL ENGINEERING STRUCTURE
土木構造物
NOZAKI YUSUKE (author)
2023-10-16
Patent
Electronic Resource
Japanese