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A platform for research: civil engineering, architecture and urbanism
EAVES BACK CEILING MATERIAL AND EAVES BACK CEILING STRUCTURE
To ensure a heat cutoff effect by preventing an eaves back ceiling material 21 from being broken and falling even when heat is added due to a fire or the like without adding another heat insulation material and preventing corrosion of aluminum foil 25 which is a heat insulation layer in the eaves back ceiling material 21.SOLUTION: This eaves back ceiling material is provided with: a base material 22 comprising a volcanic glass bilayer plate in which rock wool layers 22a are laminated and integrated on both sides of a volcanic glass deposit layer 22a; and an aluminum bilayer sheet 24 that is integrally bonded to the backside positioned on an eaves back space 5 side during construction in the base material 22. The aluminum bilayer sheet 24 has a three-layer structure where a polyethylene terephthalate resin film 26 for moisture prevention and pulp paper 27 for moisture prevention are integrally bonded respectively on the base material 22 side of the aluminum foil 25 and a side opposite the base material 22.SELECTED DRAWING: Figure 3
【課題】別途に断熱材を追加することなく、火災等の熱が加わっても軒裏天井材21が割れて脱落しないようにするとともに、軒裏天井材21における熱遮断層としてのアルミニウム箔25の腐食を未然に防いで、その熱遮断効果が確実に発揮できるようにする。【解決手段】火山性ガラス質堆積物層22aの両側にロックウール層22bが積層一体化された火山性ガラス質複層板からなる基材22と、この基材22において、施工時に軒裏空間5側に位置する裏面に一体的に接着されたアルミニウム複層シート24とを備える。アルミニウム複層シート24は、アルミニウム箔25の基材22側に防湿のためのポリエチレンテレフタレート樹脂系フィルム26が、また基材22と反対側に防湿のためのパルプ紙27がそれぞれ一体的に接着された3層構造とする。【選択図】図3
EAVES BACK CEILING MATERIAL AND EAVES BACK CEILING STRUCTURE
To ensure a heat cutoff effect by preventing an eaves back ceiling material 21 from being broken and falling even when heat is added due to a fire or the like without adding another heat insulation material and preventing corrosion of aluminum foil 25 which is a heat insulation layer in the eaves back ceiling material 21.SOLUTION: This eaves back ceiling material is provided with: a base material 22 comprising a volcanic glass bilayer plate in which rock wool layers 22a are laminated and integrated on both sides of a volcanic glass deposit layer 22a; and an aluminum bilayer sheet 24 that is integrally bonded to the backside positioned on an eaves back space 5 side during construction in the base material 22. The aluminum bilayer sheet 24 has a three-layer structure where a polyethylene terephthalate resin film 26 for moisture prevention and pulp paper 27 for moisture prevention are integrally bonded respectively on the base material 22 side of the aluminum foil 25 and a side opposite the base material 22.SELECTED DRAWING: Figure 3
【課題】別途に断熱材を追加することなく、火災等の熱が加わっても軒裏天井材21が割れて脱落しないようにするとともに、軒裏天井材21における熱遮断層としてのアルミニウム箔25の腐食を未然に防いで、その熱遮断効果が確実に発揮できるようにする。【解決手段】火山性ガラス質堆積物層22aの両側にロックウール層22bが積層一体化された火山性ガラス質複層板からなる基材22と、この基材22において、施工時に軒裏空間5側に位置する裏面に一体的に接着されたアルミニウム複層シート24とを備える。アルミニウム複層シート24は、アルミニウム箔25の基材22側に防湿のためのポリエチレンテレフタレート樹脂系フィルム26が、また基材22と反対側に防湿のためのパルプ紙27がそれぞれ一体的に接着された3層構造とする。【選択図】図3
EAVES BACK CEILING MATERIAL AND EAVES BACK CEILING STRUCTURE
軒裏天井材及び軒裏天井構造
ISHIDA TAKASHI (author) / OKAMOTO DAIGO (author) / NISHIOKA YUKI (author)
2019-03-14
Patent
Electronic Resource
Japanese
IPC:
E04B
Allgemeine Baukonstruktionen
,
GENERAL BUILDING CONSTRUCTIONS
EAVES BACK CEILING MATERIAL AND EAVES BACK CEILING STRUCTURE
| European Patent Office | 2016
EAVES BACK CEILING MATERIAL AND EAVES BACK CEILING STRUCTURE
| European Patent Office | 2019
EAVES BACK CEILING MATERIAL AND EAVES BACK CEILING STRUCTURE
| European Patent Office | 2016
EAVES BACK CEILING MATERIAL AND EAVES BACK CEILING STRUCTURE
| European Patent Office | 2019