A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
COMPOSITE STRUCTURAL ELEMENT MATERIAL AND BUILDING STRUCTURE
To provide a technique for dry-joining a frame member and a plate member in a state capable of properly transmitting shearing force while avoiding damage to the plate member in particular without causing the deterioration of designability in a composite structural element material formed by integrating a pair of opposed arranged frame members and the plate member made of a transparent material extending between the pair of frame members.SOLUTION: A groove part 11 in which an edge part 21 of a plate member 20 is fitted is provided on each inner side surface of a pair of frame members 10, and a dry-joining part 30 is a cotter-type joining part 30A formed by fitting a recessed part 25 provided in the edge part 21 of the plate member 20 and a projecting part 15 provided in the groove part 11 of the frame member 10 to each other, and in the cotter-type joining part 30A, a buffer material 40 is provided that is filled between the edge parts 21 of the recessed part 25 and the projecting part 15 fitted to each other to suppress stress concentration on the edge parts 21.SELECTED DRAWING: Figure 11
【課題】対向配置された一対の枠部材と当該一対の枠部材間に亘る透明材料製の板部材とを一体化してなる複合構造要素材において、意匠性の悪化を招くことなく特に板部材の損傷を回避しながら枠部材と板部材とをせん断力を適切に伝達可能な状態で乾式接合する技術を提供する。【解決手段】一対の枠部材10の夫々の内側面に、板部材20の縁部21が嵌め込まれる溝部11が設けられており、乾式接合部30が、板部材20の縁部21に設けられた凹部25と枠部材10の溝部11に設けられた凸部15とを互いに嵌合させてなるコッター式接合部30Aであると共に、コッター式接合部30Aにおいて、互いに嵌合される凹部25及び凸部15の縁部21間に充填されて当該縁部21における応力集中を抑制する緩衝材40を備えた。【選択図】図11
COMPOSITE STRUCTURAL ELEMENT MATERIAL AND BUILDING STRUCTURE
To provide a technique for dry-joining a frame member and a plate member in a state capable of properly transmitting shearing force while avoiding damage to the plate member in particular without causing the deterioration of designability in a composite structural element material formed by integrating a pair of opposed arranged frame members and the plate member made of a transparent material extending between the pair of frame members.SOLUTION: A groove part 11 in which an edge part 21 of a plate member 20 is fitted is provided on each inner side surface of a pair of frame members 10, and a dry-joining part 30 is a cotter-type joining part 30A formed by fitting a recessed part 25 provided in the edge part 21 of the plate member 20 and a projecting part 15 provided in the groove part 11 of the frame member 10 to each other, and in the cotter-type joining part 30A, a buffer material 40 is provided that is filled between the edge parts 21 of the recessed part 25 and the projecting part 15 fitted to each other to suppress stress concentration on the edge parts 21.SELECTED DRAWING: Figure 11
【課題】対向配置された一対の枠部材と当該一対の枠部材間に亘る透明材料製の板部材とを一体化してなる複合構造要素材において、意匠性の悪化を招くことなく特に板部材の損傷を回避しながら枠部材と板部材とをせん断力を適切に伝達可能な状態で乾式接合する技術を提供する。【解決手段】一対の枠部材10の夫々の内側面に、板部材20の縁部21が嵌め込まれる溝部11が設けられており、乾式接合部30が、板部材20の縁部21に設けられた凹部25と枠部材10の溝部11に設けられた凸部15とを互いに嵌合させてなるコッター式接合部30Aであると共に、コッター式接合部30Aにおいて、互いに嵌合される凹部25及び凸部15の縁部21間に充填されて当該縁部21における応力集中を抑制する緩衝材40を備えた。【選択図】図11
COMPOSITE STRUCTURAL ELEMENT MATERIAL AND BUILDING STRUCTURE
複合構造要素材及び建物構造
KUSHIMA SOICHIRO (author) / NISHIKAWA KOKI (author)
2024-03-22
Patent
Electronic Resource
Japanese