A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
CEILING EARTHQUAKE-PROOFING MEMBER AND CEILING SYSTEM
PROBLEM TO BE SOLVED: To obtain a ceiling earthquake-proofing member enabling a ceiling to be earthquake-proofing.SOLUTION: A roof 300 is mainly formed of a folding plate 310, which is suspended from, for example, an elevated bridge through a hanging bolt and a substrate material 314. A ceiling earthquake-proofing member 200 mainly has a first suspending member 210, a fixing member 220 and a second suspending member 230. The first suspending member 210 mainly has a first sheath pipe 211, a base plate 212 that is a plate-like member, a rib 213, and two reinforcement materials 241. The second suspending member 230 is mainly formed of the second sheath pipe 231. The fixing member 220 mainly has a lower plate 221, two vertical plates 222, a penetration bolt 223, a lower fixing member 224 and a fixing hardware 225.SELECTED DRAWING: Figure 1
【課題】天井を耐震化することが可能な天井耐震化部材を得る。【解決手段】屋根300は、折板310から主に構成され、例えば高架橋から吊りボルト及び下地材314を介して吊り下げられる。天井耐震化部材200は、第1の吊下部材210と、固定部材220と、第2の吊下部材230とを主に備える。第1の吊下部材210は、第1のさや管211と、板状部材であるベースプレート212と、リブ213と、2つの補強材241とを主に備える。第2の吊下部材230は第2のさや管231から主に構成される。固定部材220は、下プレート221と、2枚の縦プレート222と、貫通ボルト223と、下部固定部材224と、取り付け金物225とを主に備える。【選択図】図1
CEILING EARTHQUAKE-PROOFING MEMBER AND CEILING SYSTEM
PROBLEM TO BE SOLVED: To obtain a ceiling earthquake-proofing member enabling a ceiling to be earthquake-proofing.SOLUTION: A roof 300 is mainly formed of a folding plate 310, which is suspended from, for example, an elevated bridge through a hanging bolt and a substrate material 314. A ceiling earthquake-proofing member 200 mainly has a first suspending member 210, a fixing member 220 and a second suspending member 230. The first suspending member 210 mainly has a first sheath pipe 211, a base plate 212 that is a plate-like member, a rib 213, and two reinforcement materials 241. The second suspending member 230 is mainly formed of the second sheath pipe 231. The fixing member 220 mainly has a lower plate 221, two vertical plates 222, a penetration bolt 223, a lower fixing member 224 and a fixing hardware 225.SELECTED DRAWING: Figure 1
【課題】天井を耐震化することが可能な天井耐震化部材を得る。【解決手段】屋根300は、折板310から主に構成され、例えば高架橋から吊りボルト及び下地材314を介して吊り下げられる。天井耐震化部材200は、第1の吊下部材210と、固定部材220と、第2の吊下部材230とを主に備える。第1の吊下部材210は、第1のさや管211と、板状部材であるベースプレート212と、リブ213と、2つの補強材241とを主に備える。第2の吊下部材230は第2のさや管231から主に構成される。固定部材220は、下プレート221と、2枚の縦プレート222と、貫通ボルト223と、下部固定部材224と、取り付け金物225とを主に備える。【選択図】図1
CEILING EARTHQUAKE-PROOFING MEMBER AND CEILING SYSTEM
天井耐震化部材及び天井システム
ISHIMARU DAISUKE (author) / SHIGA RYUSUKE (author) / FUKUDA MAMORU (author) / HARAGUCHI KEI (author) / NAKAHAMA RYO (author) / ISHIWATARI YASUHIRO (author) / OGATA MASAHIRO (author) / ITOYAMA YASUMICHI (author) / KANESHIMA DAISUKE (author)
2017-10-26
Patent
Electronic Resource
Japanese
IPC:
E04B
Allgemeine Baukonstruktionen
,
GENERAL BUILDING CONSTRUCTIONS
SUSPENDED CEILING STRUCTURE AND METHOD FOR EARTHQUAKE-PROOFING SUSPENDED CEILING STRUCTURE
| European Patent Office | 2016