Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
SINKING-IN PREVENTION ANCHOR METALLIC MATERIAL
To provide an anchor metallic material (connection metallic material) that is proof against both earthquake loads of drawing force (tractive force) and compressive force (sinking-in force) of an earthquake, strong wind (typhoon), and the like.SOLUTION: An anchor metallic material (connection metallic material) is provided, the anchor metallic material comprising: a concave reinforcement column that is obtained by bending a rectangular flat steel plate into a concave shape having a back plate part on which a plurality of holes are formed, in order to be fixed on a vertical frame of a building based on a wooden framework wall method (two-by-four construction method); an L-shaped upper fixation part that is formed at an upper part of the concave reinforcement column and includes a rectangular steel plate on which an upper floor bolt hole for fixation to an upper floor is formed; and an L-shaped lower fixation part that is formed at a lower part of the concave reinforcement column and includes a rectangular steel plate on which a lower floor bolt hole for fixation to a lower floor is formed.SELECTED DRAWING: Figure 2
【課題】 地震、強風(台風)等の引抜力(引張力)と圧縮力(めり込み力)の両方の地震力に耐えられるアンカー金物(連結金物)を提供することを課題とする。【解決手段】 木造枠組壁工法(ツーバイフォー工法)の建物の、たて枠に固定するため長方形の平板鋼板を凹形に折り曲げ背板の部分に複数の穴を成形した凹形補強柱と、その凹形補強柱の上部に形成され、上階に固定するため長方形の鋼板に上階用ボルト孔を成形したL形上部固定部と、凹形補強柱の下部に形成され、下階に固定するため長方形の鋼板に下階用ボルト孔を成形したL形下部固定部で構成したアンカー金物(連結金物)を提供する。【選択図】図2
SINKING-IN PREVENTION ANCHOR METALLIC MATERIAL
To provide an anchor metallic material (connection metallic material) that is proof against both earthquake loads of drawing force (tractive force) and compressive force (sinking-in force) of an earthquake, strong wind (typhoon), and the like.SOLUTION: An anchor metallic material (connection metallic material) is provided, the anchor metallic material comprising: a concave reinforcement column that is obtained by bending a rectangular flat steel plate into a concave shape having a back plate part on which a plurality of holes are formed, in order to be fixed on a vertical frame of a building based on a wooden framework wall method (two-by-four construction method); an L-shaped upper fixation part that is formed at an upper part of the concave reinforcement column and includes a rectangular steel plate on which an upper floor bolt hole for fixation to an upper floor is formed; and an L-shaped lower fixation part that is formed at a lower part of the concave reinforcement column and includes a rectangular steel plate on which a lower floor bolt hole for fixation to a lower floor is formed.SELECTED DRAWING: Figure 2
【課題】 地震、強風(台風)等の引抜力(引張力)と圧縮力(めり込み力)の両方の地震力に耐えられるアンカー金物(連結金物)を提供することを課題とする。【解決手段】 木造枠組壁工法(ツーバイフォー工法)の建物の、たて枠に固定するため長方形の平板鋼板を凹形に折り曲げ背板の部分に複数の穴を成形した凹形補強柱と、その凹形補強柱の上部に形成され、上階に固定するため長方形の鋼板に上階用ボルト孔を成形したL形上部固定部と、凹形補強柱の下部に形成され、下階に固定するため長方形の鋼板に下階用ボルト孔を成形したL形下部固定部で構成したアンカー金物(連結金物)を提供する。【選択図】図2
SINKING-IN PREVENTION ANCHOR METALLIC MATERIAL
メリ込み防止アンカー金物
TAKAHASHI TATSUO (Autor:in)
20.05.2021
Patent
Elektronische Ressource
Japanisch
IPC:
E04B
Allgemeine Baukonstruktionen
,
GENERAL BUILDING CONSTRUCTIONS
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