A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
BUCKLING RESTRAINT BRACE, AND MOUNTING METHOD OF BUCKLING RESTRAINT BRACE
To provide a buckling restraint brace which can be easily mounted to a structure, and furthermore can be prevented from causing such a problem that earthquake resistance and damping performance deteriorate, and a mounting method of the buckling restraint brace.SOLUTION: A buckling restraint brace 10 includes: a core material 20; a restraint member 30 covering the outer periphery of the core material 20; a stiffening member 40 joined to the core material 20 while a part of the stiffening member 40 is arranged inside the restraint member 30; and a joining member 50 with one end 50a pin-jointed to the structure and the other end 50b joined to at least one of the core material 20 and the stiffening member 40. A long hole 52 as a position adjustment mechanism for adjusting the relative position between the joining member 50 and at least one of core material 20 and stiffening member 40 is provided in at least one of the core material 20, the stiffening member 40, and the joining member 50.SELECTED DRAWING: Figure 2
【課題】構造物に容易に取り付けることができるとともに、座屈拘束ブレースの耐震・制振性能の低下を防止できる座屈拘束ブレース、および座屈拘束ブレースの取り付け方法を提供すること。【解決手段】座屈拘束ブレース10は、芯材20と、芯材20の外周側を覆う拘束部材30と、一部が拘束部材30の内側に配置された状態で、芯材20に接合される補剛部材40と、一端部50aは構造物にピン接合され、他端部50bは芯材20および補剛部材40のうち少なくとも一つに接合される接合部材50と、を有し、芯材20および補剛部材40のうち少なくとも一つと、接合部材50との相対位置を調整する位置調整機構としての長孔52が、芯材20、補剛部材40、および接合部材50のうち少なくとも一つに設けられていることを特徴とする。【選択図】図2
BUCKLING RESTRAINT BRACE, AND MOUNTING METHOD OF BUCKLING RESTRAINT BRACE
To provide a buckling restraint brace which can be easily mounted to a structure, and furthermore can be prevented from causing such a problem that earthquake resistance and damping performance deteriorate, and a mounting method of the buckling restraint brace.SOLUTION: A buckling restraint brace 10 includes: a core material 20; a restraint member 30 covering the outer periphery of the core material 20; a stiffening member 40 joined to the core material 20 while a part of the stiffening member 40 is arranged inside the restraint member 30; and a joining member 50 with one end 50a pin-jointed to the structure and the other end 50b joined to at least one of the core material 20 and the stiffening member 40. A long hole 52 as a position adjustment mechanism for adjusting the relative position between the joining member 50 and at least one of core material 20 and stiffening member 40 is provided in at least one of the core material 20, the stiffening member 40, and the joining member 50.SELECTED DRAWING: Figure 2
【課題】構造物に容易に取り付けることができるとともに、座屈拘束ブレースの耐震・制振性能の低下を防止できる座屈拘束ブレース、および座屈拘束ブレースの取り付け方法を提供すること。【解決手段】座屈拘束ブレース10は、芯材20と、芯材20の外周側を覆う拘束部材30と、一部が拘束部材30の内側に配置された状態で、芯材20に接合される補剛部材40と、一端部50aは構造物にピン接合され、他端部50bは芯材20および補剛部材40のうち少なくとも一つに接合される接合部材50と、を有し、芯材20および補剛部材40のうち少なくとも一つと、接合部材50との相対位置を調整する位置調整機構としての長孔52が、芯材20、補剛部材40、および接合部材50のうち少なくとも一つに設けられていることを特徴とする。【選択図】図2
BUCKLING RESTRAINT BRACE, AND MOUNTING METHOD OF BUCKLING RESTRAINT BRACE
座屈拘束ブレース、および座屈拘束ブレースの取り付け方法
KUROIWA TOYOKI (author) / BENJAMIN JACOB SITLER (author) / TERASHIMA MASAO (author)
2023-12-13
Patent
Electronic Resource
Japanese
BUCKLING RESTRAINT BRACE, FRAMEWORK INCLUDING THE BUCKLING RESTRAINT BRACE
| European Patent Office | 2023