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A platform for research: civil engineering, architecture and urbanism
CONNECTION STRUCTURE, CONNECTION METHOD AND STEEL COLUMN
To provide a connection structure and a connection method which can surely transmit tensile force and a moment of a horizontal member of reinforced concrete to a steel column, and a steel column used in the same.SOLUTION: A connection structure 10 in which a slab 20 of reinforced concrete is connected to a square steel pipe column 11 includes two layers of horizontal steel plates 15 and 16 which are fixed to the outer periphery of the square steel pipe column 11 and are buried in the slab 20, and a plurality of anchoring reinforcements 31 to 34. The anchoring reinforcement 31 to 34 are fixed to notch parts 15a to 16b formed in the horizontal steel plates 15 and 16, and transmit tensile force to slab reinforcements 21 and 22 which are buried at positions separated from one another in a vertical direction in the slab 20, and constitute the slab 20.SELECTED DRAWING: Figure 1
【課題】鉄筋コンクリートの水平材の引張力やモーメントを鉄骨柱に確実に伝達することができる接続構造、接続方法及びそれに用いられる鉄骨柱を提供する。【解決手段】角形鋼管柱11に鉄筋コンクリートのスラブ20を接続した接続構造10は、角形鋼管柱11の外周に固定されて、スラブ20に埋設される2層の水平鋼板15,16と、複数の定着筋31~34を備える。定着筋31~34は、水平鋼板15,16に形成された切欠部15a~16bに固定され、スラブ20において鉛直方向に離間した位置で埋設されてスラブ20を構成するスラブ筋21,22に引張力を伝達する。【選択図】図1
CONNECTION STRUCTURE, CONNECTION METHOD AND STEEL COLUMN
To provide a connection structure and a connection method which can surely transmit tensile force and a moment of a horizontal member of reinforced concrete to a steel column, and a steel column used in the same.SOLUTION: A connection structure 10 in which a slab 20 of reinforced concrete is connected to a square steel pipe column 11 includes two layers of horizontal steel plates 15 and 16 which are fixed to the outer periphery of the square steel pipe column 11 and are buried in the slab 20, and a plurality of anchoring reinforcements 31 to 34. The anchoring reinforcement 31 to 34 are fixed to notch parts 15a to 16b formed in the horizontal steel plates 15 and 16, and transmit tensile force to slab reinforcements 21 and 22 which are buried at positions separated from one another in a vertical direction in the slab 20, and constitute the slab 20.SELECTED DRAWING: Figure 1
【課題】鉄筋コンクリートの水平材の引張力やモーメントを鉄骨柱に確実に伝達することができる接続構造、接続方法及びそれに用いられる鉄骨柱を提供する。【解決手段】角形鋼管柱11に鉄筋コンクリートのスラブ20を接続した接続構造10は、角形鋼管柱11の外周に固定されて、スラブ20に埋設される2層の水平鋼板15,16と、複数の定着筋31~34を備える。定着筋31~34は、水平鋼板15,16に形成された切欠部15a~16bに固定され、スラブ20において鉛直方向に離間した位置で埋設されてスラブ20を構成するスラブ筋21,22に引張力を伝達する。【選択図】図1
CONNECTION STRUCTURE, CONNECTION METHOD AND STEEL COLUMN
接続構造、接続方法及び鉄骨柱
YONEZAWA KENJI (author) / KASHIMATA AKIKO (author) / SHIBUICHI KATSUHIKO (author) / HAGIO HIROYA (author) / SATO TOMONARI (author)
2023-06-28
Patent
Electronic Resource
Japanese
IPC:
E04B
Allgemeine Baukonstruktionen
,
GENERAL BUILDING CONSTRUCTIONS
COLUMN CONNECTION STRUCTURE AND COLUMN CONNECTION METHOD
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