A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
SELF-SUPPORTING PROTECTIVE WALL, DESIGN METHOD OF SELF-SUPPORTING PROTECTIVE WALL, AND MANUFACTURING METHOD OF SELF-SUPPORTING PROTECTIVE WALL
PROBLEM TO BE SOLVED: To provide a self-supporting protective wall which can be evaluated as an integrated body with an outer wall of a building when an analysis of an aircraft collision is performed on the building and a protective wall of the building protecting an interior of the building without any influence to an earthquake proof design of the building upon a collision of a flying object such as an aircraft.SOLUTION: A self-supporting protective wall installed outside a building and protecting the building and an interior of the building upon a collision of a flying object such as an aircraft is configured by arranging the self-supporting protective wall separated apart from an outer wall surface of the building at a predetermined distance, wherein the predetermined distance is wider than a relative displacement with respect to the building calculated through an earthquake proof analysis on the self-supporting protective wall and narrower than a displacement of the self-supporting protective wall calculated through a collision analysis of the flying object to the self-supporting protective wall.SELECTED DRAWING: Figure 1A
【課題】航空機などの飛来物が衝突した場合に建屋および当該建屋内部を防護する建屋の防護壁において、建屋の耐震設計に影響を与えることなく、航空機衝突解析の際に建屋の外壁と一体として評価可能な自立型防護壁を提供する。【解決手段】建屋の外部に設けられ、航空機などの飛来物が衝突した場合に前記建屋および当該建屋内部を防護する自立型防護壁であって、前記自立型防護壁は、前記建屋の外壁面から所定の間隔を空けて離隔して設けられ、前記所定の間隔は、前記自立型防護壁に対する耐震解析により算出した前記建屋との相対変位量よりも広く、前記自立型防護壁に対する前記飛来物の衝突解析により算出した当該自立型防護壁の変位量よりも狭いことを特徴とする。【選択図】 図1A
SELF-SUPPORTING PROTECTIVE WALL, DESIGN METHOD OF SELF-SUPPORTING PROTECTIVE WALL, AND MANUFACTURING METHOD OF SELF-SUPPORTING PROTECTIVE WALL
PROBLEM TO BE SOLVED: To provide a self-supporting protective wall which can be evaluated as an integrated body with an outer wall of a building when an analysis of an aircraft collision is performed on the building and a protective wall of the building protecting an interior of the building without any influence to an earthquake proof design of the building upon a collision of a flying object such as an aircraft.SOLUTION: A self-supporting protective wall installed outside a building and protecting the building and an interior of the building upon a collision of a flying object such as an aircraft is configured by arranging the self-supporting protective wall separated apart from an outer wall surface of the building at a predetermined distance, wherein the predetermined distance is wider than a relative displacement with respect to the building calculated through an earthquake proof analysis on the self-supporting protective wall and narrower than a displacement of the self-supporting protective wall calculated through a collision analysis of the flying object to the self-supporting protective wall.SELECTED DRAWING: Figure 1A
【課題】航空機などの飛来物が衝突した場合に建屋および当該建屋内部を防護する建屋の防護壁において、建屋の耐震設計に影響を与えることなく、航空機衝突解析の際に建屋の外壁と一体として評価可能な自立型防護壁を提供する。【解決手段】建屋の外部に設けられ、航空機などの飛来物が衝突した場合に前記建屋および当該建屋内部を防護する自立型防護壁であって、前記自立型防護壁は、前記建屋の外壁面から所定の間隔を空けて離隔して設けられ、前記所定の間隔は、前記自立型防護壁に対する耐震解析により算出した前記建屋との相対変位量よりも広く、前記自立型防護壁に対する前記飛来物の衝突解析により算出した当該自立型防護壁の変位量よりも狭いことを特徴とする。【選択図】 図1A
SELF-SUPPORTING PROTECTIVE WALL, DESIGN METHOD OF SELF-SUPPORTING PROTECTIVE WALL, AND MANUFACTURING METHOD OF SELF-SUPPORTING PROTECTIVE WALL
自立型防護壁、自立型防護壁の設計方法、自立型防護壁の製造方法
ABE SHIGEKI (author)
2018-10-04
Patent
Electronic Resource
Japanese
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