BEARING WALL STRUCTURE USING EARTHQUAKE-PROOF SURFACE MATERIAL, THE EARTHQUAKE-PROOF SURFACE MATERIAL, AND CONSTRUCTION METHOD OF THE BEARING WALL STRUCTURE

PROBLEM TO BE SOLVED: To provide a new bearing wall structure having a surface material arranged inside an exterior, which eliminates the need for ventilation furring strips and can enhance reduction in construction time and effort and the freedom in selection of door fittings, while achieving so-ca...

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Hauptverfasser:	HAGIWARA SHINTARO, KAWAMOTO KAZUYOSHI
Format:	Patent
Sprache:	eng
Schlagworte:	BUILDING CEILINGS FIXED CONSTRUCTIONS FLOORS GENERAL BUILDING CONSTRUCTIONS INSULATION OR OTHER PROTECTION OF BUILDINGS ROOFS WALLS, e.g. PARTITIONS
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creator	HAGIWARA SHINTARO KAWAMOTO KAZUYOSHI
description	PROBLEM TO BE SOLVED: To provide a new bearing wall structure having a surface material arranged inside an exterior, which eliminates the need for ventilation furring strips and can enhance reduction in construction time and effort and the freedom in selection of door fittings, while achieving so-called "module-less". SOLUTION: The bearing wall structure includes an exterior surface material 7 and the earthquake-proof surface material 4 on the indoor side thereof. A plurality of slits 41 in the vertical direction and a plurality of projected strips 42 in the vertical direction are arranged on the earthquake-proof surface material 4. The earthquake-proof surface material 4, wherein a ventilation part 8 is formed between the earthquake-proof surface material 4 and the exterior surface material 7 in the slit 41 and the exterior surface material 7 is fixed on the earthquake-proof surface material 4 in the projected strip 42, is used in the bearing wall structure. COPYRIGHT: (C)2011,JPO&INPIT
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SOLUTION: The bearing wall structure includes an exterior surface material 7 and the earthquake-proof surface material 4 on the indoor side thereof. A plurality of slits 41 in the vertical direction and a plurality of projected strips 42 in the vertical direction are arranged on the earthquake-proof surface material 4. The earthquake-proof surface material 4, wherein a ventilation part 8 is formed between the earthquake-proof surface material 4 and the exterior surface material 7 in the slit 41 and the exterior surface material 7 is fixed on the earthquake-proof surface material 4 in the projected strip 42, is used in the bearing wall structure. 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SOLUTION: The bearing wall structure includes an exterior surface material 7 and the earthquake-proof surface material 4 on the indoor side thereof. A plurality of slits 41 in the vertical direction and a plurality of projected strips 42 in the vertical direction are arranged on the earthquake-proof surface material 4. The earthquake-proof surface material 4, wherein a ventilation part 8 is formed between the earthquake-proof surface material 4 and the exterior surface material 7 in the slit 41 and the exterior surface material 7 is fixed on the earthquake-proof surface material 4 in the projected strip 42, is used in the bearing wall structure. 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SOLUTION: The bearing wall structure includes an exterior surface material 7 and the earthquake-proof surface material 4 on the indoor side thereof. A plurality of slits 41 in the vertical direction and a plurality of projected strips 42 in the vertical direction are arranged on the earthquake-proof surface material 4. The earthquake-proof surface material 4, wherein a ventilation part 8 is formed between the earthquake-proof surface material 4 and the exterior surface material 7 in the slit 41 and the exterior surface material 7 is fixed on the earthquake-proof surface material 4 in the projected strip 42, is used in the bearing wall structure. COPYRIGHT: (C)2011,JPO&INPIT</abstract><oa>free_for_read</oa></addata></record>
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language	eng
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subjects	BUILDING CEILINGS FIXED CONSTRUCTIONS FLOORS GENERAL BUILDING CONSTRUCTIONS INSULATION OR OTHER PROTECTION OF BUILDINGS ROOFS WALLS, e.g. PARTITIONS
title	BEARING WALL STRUCTURE USING EARTHQUAKE-PROOF SURFACE MATERIAL, THE EARTHQUAKE-PROOF SURFACE MATERIAL, AND CONSTRUCTION METHOD OF THE BEARING WALL STRUCTURE
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