A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
PROBLEM TO BE SOLVED: To provide a ceiling structure which enables prevention of vibration transfer from an upper floor to a lower floor as well as improvements in quake resistance of a ceiling material at the time of earth quake.SOLUTION: Ceiling structure 40 consists of wall parts 26 and 28, a ceiling material 52, a floor beam 54, a ceiling bed material 56, a connection member 58 and a screw 62. The wall parts 26 and 28 are arranged to stand along a direction Z. The ceiling material 52 is placed above the wall parts 26 and 28. The floor beam 54 is installed along a direction Y above the ceiling material 52. The ceiling bed material 56 is installed with the ceiling material 52. The connection member 58 has an antivibration rubber 104 and connects a part of ceiling bed material 56, which is located inside from edges of wall parts 26 and 28 toward a direction X, and the floor beam 54. The screw 62 fixes the edge of ceiling bed material 56 to the upper ends of wall parts 26 and 28.SELECTED DRAWING: Figure 1
【課題】上階の振動が下階に伝達されるのを抑制すると共に地震発生時の天井材の耐震性を向上させることができる建物の天井構造を得る。【解決手段】天井構造40は、壁部26、28と、天井材52と、床梁54と、天井下地材56と、連結部材58と、ネジ62とを有する。壁部26、28は、Z方向に沿って立設されている。天井材52は、壁部26、28よりも上側に配置されている。床梁54は、天井材52よりも上側でY方向に架設されている。天井下地材56は、天井材52に設けられている。連結部材58は、防振ゴム104を備え、天井下地材56の壁部26、28側の端部よりもX方向の内側の部位と床梁54とをZ方向に連結する。ネジ62は、天井下地材56の端部を壁部26、28の上端に固定する。【選択図】図1
PROBLEM TO BE SOLVED: To provide a ceiling structure which enables prevention of vibration transfer from an upper floor to a lower floor as well as improvements in quake resistance of a ceiling material at the time of earth quake.SOLUTION: Ceiling structure 40 consists of wall parts 26 and 28, a ceiling material 52, a floor beam 54, a ceiling bed material 56, a connection member 58 and a screw 62. The wall parts 26 and 28 are arranged to stand along a direction Z. The ceiling material 52 is placed above the wall parts 26 and 28. The floor beam 54 is installed along a direction Y above the ceiling material 52. The ceiling bed material 56 is installed with the ceiling material 52. The connection member 58 has an antivibration rubber 104 and connects a part of ceiling bed material 56, which is located inside from edges of wall parts 26 and 28 toward a direction X, and the floor beam 54. The screw 62 fixes the edge of ceiling bed material 56 to the upper ends of wall parts 26 and 28.SELECTED DRAWING: Figure 1
【課題】上階の振動が下階に伝達されるのを抑制すると共に地震発生時の天井材の耐震性を向上させることができる建物の天井構造を得る。【解決手段】天井構造40は、壁部26、28と、天井材52と、床梁54と、天井下地材56と、連結部材58と、ネジ62とを有する。壁部26、28は、Z方向に沿って立設されている。天井材52は、壁部26、28よりも上側に配置されている。床梁54は、天井材52よりも上側でY方向に架設されている。天井下地材56は、天井材52に設けられている。連結部材58は、防振ゴム104を備え、天井下地材56の壁部26、28側の端部よりもX方向の内側の部位と床梁54とをZ方向に連結する。ネジ62は、天井下地材56の端部を壁部26、28の上端に固定する。【選択図】図1
CEILING STRUCTURE OF BUILDING
建物の天井構造
ADACHI DAIGO (author)
2018-09-27
Patent
Electronic Resource
Japanese
IPC:
E04B
Allgemeine Baukonstruktionen
,
GENERAL BUILDING CONSTRUCTIONS