A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
WOODY EARTHQUAKE-PROOF WALL
PROBLEM TO BE SOLVED: To provide a highly rigid and highly tenacious woody earthquake-proof wall having high yield strength.SOLUTION: A beam junction 16 is configured by including: a beam side steel plate 18 that is fixed to an upper beam 12 or a lower beam and that projects toward a wall body 10; a wall body inner side steel plate 20 that projects from the upper end or the lower end of the wall body 10 toward the upper beam 12 or the lower beam and that is disposed so as to be inserted into the wall body 10; bolts 24 that join the steel plates 18, 20; and an end surface side steel plate 34 that is disposed on the upper end surface or the lower end surface of the wall body 10 and joined to the wall body inner side steel plate 20. The wall body 10 and the wall body inner side steel plate 20 are integrally fixed by a rod-like steel member 36 that is disposed therethrough, and the wall body 10 and the end surface side steel plate 34 are integrally fixed by a steel member 40 with a rod-like screw which has a screw formed on an outer periphery and which is disposed so as to be inserted from the outside of the end surface side steel plate 34 into the wall body 10.SELECTED DRAWING: Figure 2
【課題】剛性、靱性、耐力に優れた木質耐震壁を提供する。【解決手段】梁接合部16は、上梁12または下梁に固定され、壁体10に向けて突出する梁側の鋼板18と、壁体10の上端または下端から上梁12または下梁に向けて突出するとともに壁体10の内部に挿入配置される壁体内部側の鋼板20と、これらの鋼板18、20を接合するボルト24と、壁体10の上端面または下端面に配置され、壁体内部側の鋼板20に接合する端面側の鋼板34とを含んで構成され、壁体10と壁体内部側の鋼板20は、これらを貫通して配置される棒状の鋼製部材36によって一体的に固定され、壁体10と端面側の鋼板34は、端面側の鋼板34の外側から壁体10の内部に挿入配置される外周にねじが形成された棒状のねじ付き鋼製部材40によって一体的に固定されるようにする。【選択図】図2
WOODY EARTHQUAKE-PROOF WALL
PROBLEM TO BE SOLVED: To provide a highly rigid and highly tenacious woody earthquake-proof wall having high yield strength.SOLUTION: A beam junction 16 is configured by including: a beam side steel plate 18 that is fixed to an upper beam 12 or a lower beam and that projects toward a wall body 10; a wall body inner side steel plate 20 that projects from the upper end or the lower end of the wall body 10 toward the upper beam 12 or the lower beam and that is disposed so as to be inserted into the wall body 10; bolts 24 that join the steel plates 18, 20; and an end surface side steel plate 34 that is disposed on the upper end surface or the lower end surface of the wall body 10 and joined to the wall body inner side steel plate 20. The wall body 10 and the wall body inner side steel plate 20 are integrally fixed by a rod-like steel member 36 that is disposed therethrough, and the wall body 10 and the end surface side steel plate 34 are integrally fixed by a steel member 40 with a rod-like screw which has a screw formed on an outer periphery and which is disposed so as to be inserted from the outside of the end surface side steel plate 34 into the wall body 10.SELECTED DRAWING: Figure 2
【課題】剛性、靱性、耐力に優れた木質耐震壁を提供する。【解決手段】梁接合部16は、上梁12または下梁に固定され、壁体10に向けて突出する梁側の鋼板18と、壁体10の上端または下端から上梁12または下梁に向けて突出するとともに壁体10の内部に挿入配置される壁体内部側の鋼板20と、これらの鋼板18、20を接合するボルト24と、壁体10の上端面または下端面に配置され、壁体内部側の鋼板20に接合する端面側の鋼板34とを含んで構成され、壁体10と壁体内部側の鋼板20は、これらを貫通して配置される棒状の鋼製部材36によって一体的に固定され、壁体10と端面側の鋼板34は、端面側の鋼板34の外側から壁体10の内部に挿入配置される外周にねじが形成された棒状のねじ付き鋼製部材40によって一体的に固定されるようにする。【選択図】図2
WOODY EARTHQUAKE-PROOF WALL
木質耐震壁
SADAHIRO OSAMU (author) / KIMURA MAKOTO (author) / TAMURA JUNICHI (author) / KAWACHI TAKESHI (author) / TSUHATA SHINYA (author) / HAMA TOMOKI (author) / OZAWA HIROCHIKA (author)
2018-11-29
Patent
Electronic Resource
Japanese