A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
WIND RESISTANCE LOCK MECHANISM OF BASE-ISOLATED STRUCTURE
To provide a wind resistance lock mechanism of a base-isolated structure that can be made to exhibit base isolation performance in one of the states in earthquake or windstorm.SOLUTION: A wind resistance lock mechanism of a base-isolated structure comprises a wind velocity sensor 12 and an earthquake sensor 13 provided at a base-isolated structure, a pump 14 that is driven depending on a detection result of the wind velocity sensor and the earthquake sensor, a hydraulic jack device 11 that is coupled with the pump and is provided at a base isolation layer between an upper structure body 2 and a lower structure body 3, and a control part 15 for controlling the pump. The hydraulic jack device has a piston storage part fixed to the lower structure body, a piston moving vertically by hydraulic pressure supplied from the pump, and a pod part arranged above the piston. A restraining member is provided to restrain a horizontal relative displacement between the piston storage part and the pod part.SELECTED DRAWING: Figure 2
【課題】地震時と暴風時のいずれの状況においても免震性能を発揮させることができる免震構造物の耐風ロック機構を提供することを目的とする。【解決手段】免震構造物に設けられた風速センサ12および地震センサ13と、風速センサおよび地震センサの検出結果に応じて駆動するポンプ14と、ポンプと連結され、上部構造体2と下部構造体3との間の免震層に設けられる油圧ジャッキ装置11と、ポンプを制御する制御部15と、を備え、油圧ジャッキ装置は、下部構造体に固定されたピストン収容部と、ポンプから供給される油圧によって上下動するピストンと、ピストンの上方に配設されるポッド部と、を有し、ピストン収容部とポッド部との水平相対変位を拘束する拘束部材が設けられている。【選択図】図2
WIND RESISTANCE LOCK MECHANISM OF BASE-ISOLATED STRUCTURE
To provide a wind resistance lock mechanism of a base-isolated structure that can be made to exhibit base isolation performance in one of the states in earthquake or windstorm.SOLUTION: A wind resistance lock mechanism of a base-isolated structure comprises a wind velocity sensor 12 and an earthquake sensor 13 provided at a base-isolated structure, a pump 14 that is driven depending on a detection result of the wind velocity sensor and the earthquake sensor, a hydraulic jack device 11 that is coupled with the pump and is provided at a base isolation layer between an upper structure body 2 and a lower structure body 3, and a control part 15 for controlling the pump. The hydraulic jack device has a piston storage part fixed to the lower structure body, a piston moving vertically by hydraulic pressure supplied from the pump, and a pod part arranged above the piston. A restraining member is provided to restrain a horizontal relative displacement between the piston storage part and the pod part.SELECTED DRAWING: Figure 2
【課題】地震時と暴風時のいずれの状況においても免震性能を発揮させることができる免震構造物の耐風ロック機構を提供することを目的とする。【解決手段】免震構造物に設けられた風速センサ12および地震センサ13と、風速センサおよび地震センサの検出結果に応じて駆動するポンプ14と、ポンプと連結され、上部構造体2と下部構造体3との間の免震層に設けられる油圧ジャッキ装置11と、ポンプを制御する制御部15と、を備え、油圧ジャッキ装置は、下部構造体に固定されたピストン収容部と、ポンプから供給される油圧によって上下動するピストンと、ピストンの上方に配設されるポッド部と、を有し、ピストン収容部とポッド部との水平相対変位を拘束する拘束部材が設けられている。【選択図】図2
WIND RESISTANCE LOCK MECHANISM OF BASE-ISOLATED STRUCTURE
免震構造物の耐風ロック機構
HAMA TOMOKI (author) / USHIZAKA SHINYA (author) / SARAUMI YASUYUKI (author) / YASUTOMI AYAKO (author) / ISODA KAZUHIKO (author) / SUGIMOTO KOICHI (author) / KOTSUKI YOSHIE (author) / YOSHIDA NAOTO (author) / SATO HIROSHI (author)
2023-09-21
Patent
Electronic Resource
Japanese