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A platform for research: civil engineering, architecture and urbanism
ESTIMATION METHOD OF RIGIDITY OF BUILDING, AND ESTIMATION METHOD OF NATURAL FREQUENCY OF BUILDING
PROBLEM TO BE SOLVED: To provide an estimation method of the rigidity of a building capable of accurately estimating the rigidity of the building.SOLUTION: The estimation method includes: a first process (step S101) of calculating the horizontal rigidity (rigidity Kc) of the skeleton of the building for a predetermined direction in the horizontal direction; a second process (step S102) of calculating the correction value (Lgk×α) on the basis of the horizontal length of a nonstructural member of the building; and a third process (step S103) of calculating the horizontal rigidity (rigidity K) of the whole building for the predetermined direction by correcting, using the correction value, the horizontal rigidity (rigidity Kc) of the skeleton of the building calculated in the first process.SELECTED DRAWING: Figure 1
【課題】建物の剛性を精度良く推定することが可能な建物の剛性の推定方法を提供する。【解決手段】水平方向における所定の方向に対する建物の躯体の水平剛性(剛性Kc)を算出する第一工程(ステップS101)と、前記建物の非構造部材の水平方向における長さに基づいて補正値(Lgk×α)を算出する第二工程(ステップS102)と、前記補正値によって前記第一工程で算出された前記建物の躯体の水平剛性(剛性Kc)を補正することによって、前記所定の方向に対する建物全体の水平剛性(剛性K)を算出する第三工程(ステップS103)と、を具備した。【選択図】図1
ESTIMATION METHOD OF RIGIDITY OF BUILDING, AND ESTIMATION METHOD OF NATURAL FREQUENCY OF BUILDING
PROBLEM TO BE SOLVED: To provide an estimation method of the rigidity of a building capable of accurately estimating the rigidity of the building.SOLUTION: The estimation method includes: a first process (step S101) of calculating the horizontal rigidity (rigidity Kc) of the skeleton of the building for a predetermined direction in the horizontal direction; a second process (step S102) of calculating the correction value (Lgk×α) on the basis of the horizontal length of a nonstructural member of the building; and a third process (step S103) of calculating the horizontal rigidity (rigidity K) of the whole building for the predetermined direction by correcting, using the correction value, the horizontal rigidity (rigidity Kc) of the skeleton of the building calculated in the first process.SELECTED DRAWING: Figure 1
【課題】建物の剛性を精度良く推定することが可能な建物の剛性の推定方法を提供する。【解決手段】水平方向における所定の方向に対する建物の躯体の水平剛性(剛性Kc)を算出する第一工程(ステップS101)と、前記建物の非構造部材の水平方向における長さに基づいて補正値(Lgk×α)を算出する第二工程(ステップS102)と、前記補正値によって前記第一工程で算出された前記建物の躯体の水平剛性(剛性Kc)を補正することによって、前記所定の方向に対する建物全体の水平剛性(剛性K)を算出する第三工程(ステップS103)と、を具備した。【選択図】図1
ESTIMATION METHOD OF RIGIDITY OF BUILDING, AND ESTIMATION METHOD OF NATURAL FREQUENCY OF BUILDING
建物の剛性の推定方法、及び建物の固有振動数の推定方法
KONDO TAKASHI (author)
2017-09-14
Patent
Electronic Resource
Japanese
IPC:
G01H
MEASUREMENT OF MECHANICAL VIBRATIONS OR ULTRASONIC, SONIC OR INFRASONIC WAVES
,
Messen von mechanischen Schwingungen oder Ultraschall-, Schall- oder Infraschallwellen
/
E04B
Allgemeine Baukonstruktionen
,
GENERAL BUILDING CONSTRUCTIONS
/
G01M
TESTING STATIC OR DYNAMIC BALANCE OF MACHINES OR STRUCTURES
,
Prüfen der statischen oder dynamischen Massenverteilung rotierender Teile von Maschinen oder Konstruktionen
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