A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
HIGHLY AIRTIGHT SPACE PARTITION STRUCTURE AND PARTITION METHOD
PROBLEM TO BE SOLVED: To partition or construct a highly airtight room in an architectural structure using a wall structure made by a dry construction method and a ceiling structure.SOLUTION: A wall surface material (13) and a ceiling surface material (20) of a highly airtight space (C) are separated from each other by a face material alienation zone (4) in a horizontal direction. A surrounding edge member (50) is fixed to a wall structure (1). The surrounding edge member and the ceiling surface material are separated and alienated to form a horizontal joint space (63). A sealant (66) is charged in the horizontal joint space. A face material alienation zone (5) in a vertical direction is formed at a connection part (V) between the wall structures. A wall corner member (70), which is fixed to a first wall structure (1Y) and is separated and alienated from a second wall structure (1X), forms a vertical joint space (83). A sealant (86) is charged in the vertical joint space. The sealants (66, 86) absorb relative displacement of the wall structure and the ceiling structure (2) and that between the wall structures.SELECTED DRAWING: Figure 3
【課題】高気密室を乾式工法の壁構造体及び天井構造体によって建築物内に区画し又は構築する。【解決手段】高気密空間(C)の壁面材(13)及び天井面材(20)は水平方向の面材離間帯(4)により天井外周域で相互離間する。廻り縁部材(50)は、壁構造体(1)に固定される。廻り縁部材と天井面材とは分離・離間して横目地空間(63)を形成し、シーリング材(66)が横目地空間に充填される。鉛直方向の面材離間帯(5)が壁構造体同士の接続部(V)に形成される。第1壁構造体(1Y)に固定され且つ第2壁構造体(1X)から分離・離間した壁コーナ部材(70)により縦目地空間(83)が形成され、シーリング材(86)が縦目地空間に充填される。シーリング材(66,86)は、壁構造体及び天井構造体(2)の相対変位や、壁構造体同士の相対変位を吸収する。【選択図】図3
HIGHLY AIRTIGHT SPACE PARTITION STRUCTURE AND PARTITION METHOD
PROBLEM TO BE SOLVED: To partition or construct a highly airtight room in an architectural structure using a wall structure made by a dry construction method and a ceiling structure.SOLUTION: A wall surface material (13) and a ceiling surface material (20) of a highly airtight space (C) are separated from each other by a face material alienation zone (4) in a horizontal direction. A surrounding edge member (50) is fixed to a wall structure (1). The surrounding edge member and the ceiling surface material are separated and alienated to form a horizontal joint space (63). A sealant (66) is charged in the horizontal joint space. A face material alienation zone (5) in a vertical direction is formed at a connection part (V) between the wall structures. A wall corner member (70), which is fixed to a first wall structure (1Y) and is separated and alienated from a second wall structure (1X), forms a vertical joint space (83). A sealant (86) is charged in the vertical joint space. The sealants (66, 86) absorb relative displacement of the wall structure and the ceiling structure (2) and that between the wall structures.SELECTED DRAWING: Figure 3
【課題】高気密室を乾式工法の壁構造体及び天井構造体によって建築物内に区画し又は構築する。【解決手段】高気密空間(C)の壁面材(13)及び天井面材(20)は水平方向の面材離間帯(4)により天井外周域で相互離間する。廻り縁部材(50)は、壁構造体(1)に固定される。廻り縁部材と天井面材とは分離・離間して横目地空間(63)を形成し、シーリング材(66)が横目地空間に充填される。鉛直方向の面材離間帯(5)が壁構造体同士の接続部(V)に形成される。第1壁構造体(1Y)に固定され且つ第2壁構造体(1X)から分離・離間した壁コーナ部材(70)により縦目地空間(83)が形成され、シーリング材(86)が縦目地空間に充填される。シーリング材(66,86)は、壁構造体及び天井構造体(2)の相対変位や、壁構造体同士の相対変位を吸収する。【選択図】図3
HIGHLY AIRTIGHT SPACE PARTITION STRUCTURE AND PARTITION METHOD
高気密空間の区画構造及びその区画方法
YANAGI HIROMICHI (author) / TAKANO NAOTO (author) / YAMAMOTO HAYATO (author) / FUKUSHIMA KAZUO (author)
2017-12-28
Patent
Electronic Resource
Japanese
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