A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
INSTALLATION STRUCTURE OF SEISMOMETER AND INSTALLATION METHOD FOR SEISMOMETER
To provide an installation structure and method for a seismometer capable of further integrally installing the seismometer to a building.SOLUTION: An installation structure of a seismometer according to the present invention is the installation structure of the seismometer to be installed at a building. The building includes a planar first plane, and a planar second plane orthogonal to the first plane. The seismometer includes a first contact part coming into contact with the first plane, and a second contact part coming into contact with the second plane. The first contact has three or more first contact points coming into contact with the first plane, and the three or more first contacts points are arranged so as not to be aligned on a straight line. The second contact has two or more second contact points coming into contact with the second plane, and the two or more second contacts points are arranged so as not to be aligned on a straight line orthogonal to the first plane.SELECTED DRAWING: Figure 1
【課題】地震計を建物に対してより一体的に設置することが可能な、地震計の設置構造及び地震計の設置方法を提供する。【解決手段】本発明の地震計の設置構造は、建物に設置される地震計の設置構造であって、前記建物は、平面状の第1平面部と、前記第1平面部と直交する平面状の第2平面部と、を備え、前記地震計は、前記第1平面部に当接する第1当接部と、前記第2平面部に当接する第2当接部と、を備え、前記第1当接部は前記第1平面部に当接する3点以上の第1当接点を有し、かつ、当該3点以上の第1当接点が一直線上に並ばぬように配置されており、前記第2当接部は前記第2平面部に当接する2点以上の第2当接点を有し、かつ、当該2点以上の第2当接点が前記第1平面部に直交する直線上に並ばぬように配置されている。【選択図】図1
INSTALLATION STRUCTURE OF SEISMOMETER AND INSTALLATION METHOD FOR SEISMOMETER
To provide an installation structure and method for a seismometer capable of further integrally installing the seismometer to a building.SOLUTION: An installation structure of a seismometer according to the present invention is the installation structure of the seismometer to be installed at a building. The building includes a planar first plane, and a planar second plane orthogonal to the first plane. The seismometer includes a first contact part coming into contact with the first plane, and a second contact part coming into contact with the second plane. The first contact has three or more first contact points coming into contact with the first plane, and the three or more first contacts points are arranged so as not to be aligned on a straight line. The second contact has two or more second contact points coming into contact with the second plane, and the two or more second contacts points are arranged so as not to be aligned on a straight line orthogonal to the first plane.SELECTED DRAWING: Figure 1
【課題】地震計を建物に対してより一体的に設置することが可能な、地震計の設置構造及び地震計の設置方法を提供する。【解決手段】本発明の地震計の設置構造は、建物に設置される地震計の設置構造であって、前記建物は、平面状の第1平面部と、前記第1平面部と直交する平面状の第2平面部と、を備え、前記地震計は、前記第1平面部に当接する第1当接部と、前記第2平面部に当接する第2当接部と、を備え、前記第1当接部は前記第1平面部に当接する3点以上の第1当接点を有し、かつ、当該3点以上の第1当接点が一直線上に並ばぬように配置されており、前記第2当接部は前記第2平面部に当接する2点以上の第2当接点を有し、かつ、当該2点以上の第2当接点が前記第1平面部に直交する直線上に並ばぬように配置されている。【選択図】図1
INSTALLATION STRUCTURE OF SEISMOMETER AND INSTALLATION METHOD FOR SEISMOMETER
地震計の設置構造及び地震計の設置方法
EBARA KATSUMI (author)
2019-04-25
Patent
Electronic Resource
Japanese
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