A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
To provide a woody structural member that restrains heat thermally conducted via a metallic member leading to a woody load support par by passing through a surface of the woody structural member.SOLUTION: A woody beam 10 comprises a woody load support part 12, a fire-resistant coating layer 20 arranged outside the load support part 12, and a fire-resistant part 100 provided instead of a part of the fire-resistant coating layer 20 and reducing heat than the fire-resistant coating layer 20, the heat being thermally conducted via a bolt 70 leading to the load support part 12 by passing through its surface.SELECTED DRAWING: Figure 2
【課題】木質構造部材の表面から貫通して木質の荷重支持部に至る金属部材を介して熱伝導される熱を抑制する。【解決手段】木質梁10は、木質の荷重支持部12と、荷重支持部12の外側に配置された耐火被覆層20と、耐火被覆層20の一部に替えて設けられ表面から貫通して荷重支持部12に到るボルト70を介して熱伝導される熱を耐火被覆層20よりも低減させる耐火部100と、を備える。【選択図】図2
To provide a woody structural member that restrains heat thermally conducted via a metallic member leading to a woody load support par by passing through a surface of the woody structural member.SOLUTION: A woody beam 10 comprises a woody load support part 12, a fire-resistant coating layer 20 arranged outside the load support part 12, and a fire-resistant part 100 provided instead of a part of the fire-resistant coating layer 20 and reducing heat than the fire-resistant coating layer 20, the heat being thermally conducted via a bolt 70 leading to the load support part 12 by passing through its surface.SELECTED DRAWING: Figure 2
【課題】木質構造部材の表面から貫通して木質の荷重支持部に至る金属部材を介して熱伝導される熱を抑制する。【解決手段】木質梁10は、木質の荷重支持部12と、荷重支持部12の外側に配置された耐火被覆層20と、耐火被覆層20の一部に替えて設けられ表面から貫通して荷重支持部12に到るボルト70を介して熱伝導される熱を耐火被覆層20よりも低減させる耐火部100と、を備える。【選択図】図2
WOODY STRUCTURAL MEMBER
木質構造部材
KOBAYASHI MICHIKAZU (author)
2020-06-25
Patent
Electronic Resource
Japanese