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    FLOOR STRUCTURE AND MANUFACTURING METHOD THEREOF

    New search for: KUGIMIYA KAZUMA
    New search for: ANDO HIDEYUKI

    To provide a floor structure which has a heat insulator containing aerogel and enables a person walking on the floor to feel rigid surface, and a manufacturing method of the floor structure.SOLUTION: A floor structure 1 is set on a floor of a building. The floor structure 1 comprises a heat insulation layer 2 and a surface sheet 3 placed on the heat insulation layer 2. The heat insulation layer 2 has a frame body 4 with multiple filling chambers 5 opening upward and a heat insulator 6 packed in each of the multiple filling chambers 5. The heat insulator 6 contains aerogel. Heat conductivity in vertical direction of the floor structure 1 is 0.1 W/mK or less. Compression strength of the surface sheet is 15 MPa or larger when the load is applied downward on a region of 10 mm×10 mm on a top face of the surface sheet.SELECTED DRAWING: Figure 1

    【課題】エアロゲルを含む断熱材を備え、かつ歩行する人が強固な感触を感じることができる床構造及びその製造方法を提供する。【解決手段】床構造1は、建物の床に設置されている。床構造1は、断熱層2と、断熱層2の上に重なる表面板3とを備える。断熱層2は、上方に開口する複数の充填室5を有する枠体4と、複数の充填室5の各々に充填されている断熱材6とを備える。断熱材6は、エアロゲルを含有する。床構造1の上下方向の熱伝導率は0.1W/mK以下である。前記表面板の上面の10mm×10mmの寸法の領域に下方へ向けた荷重が負荷された場合の前記表面板の圧縮強度は15MPa以上である。【選択図】図1

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    FLOOR STRUCTURE AND MANUFACTURING METHOD THEREOF

    New search for: KUGIMIYA KAZUMA
    New search for: ANDO HIDEYUKI

    To provide a floor structure which has a heat insulator containing aerogel and enables a person walking on the floor to feel rigid surface, and a manufacturing method of the floor structure.SOLUTION: A floor structure 1 is set on a floor of a building. The floor structure 1 comprises a heat insulation layer 2 and a surface sheet 3 placed on the heat insulation layer 2. The heat insulation layer 2 has a frame body 4 with multiple filling chambers 5 opening upward and a heat insulator 6 packed in each of the multiple filling chambers 5. The heat insulator 6 contains aerogel. Heat conductivity in vertical direction of the floor structure 1 is 0.1 W/mK or less. Compression strength of the surface sheet is 15 MPa or larger when the load is applied downward on a region of 10 mm×10 mm on a top face of the surface sheet.SELECTED DRAWING: Figure 1

    【課題】エアロゲルを含む断熱材を備え、かつ歩行する人が強固な感触を感じることができる床構造及びその製造方法を提供する。【解決手段】床構造1は、建物の床に設置されている。床構造1は、断熱層2と、断熱層2の上に重なる表面板3とを備える。断熱層2は、上方に開口する複数の充填室5を有する枠体4と、複数の充填室5の各々に充填されている断熱材6とを備える。断熱材6は、エアロゲルを含有する。床構造1の上下方向の熱伝導率は0.1W/mK以下である。前記表面板の上面の10mm×10mmの寸法の領域に下方へ向けた荷重が負荷された場合の前記表面板の圧縮強度は15MPa以上である。【選択図】図1

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    FLOOR STRUCTURE AND MANUFACTURING METHOD THEREOF

    New search for: KUGIMIYA KAZUMA
    New search for: ANDO HIDEYUKI

    To provide a floor structure which has a heat insulator containing aerogel and enables a person walking on the floor to feel rigid surface, and a manufacturing method of the floor structure.SOLUTION: A floor structure 1 is set on a floor of a building. The floor structure 1 comprises a heat insulation layer 2 and a surface sheet 3 placed on the heat insulation layer 2. The heat insulation layer 2 has a frame body 4 with multiple filling chambers 5 opening upward and a heat insulator 6 packed in each of the multiple filling chambers 5. The heat insulator 6 contains aerogel. Heat conductivity in vertical direction of the floor structure 1 is 0.1 W/mK or less. Compression strength of the surface sheet is 15 MPa or larger when the load is applied downward on a region of 10 mm×10 mm on a top face of the surface sheet.SELECTED DRAWING: Figure 1

    【課題】エアロゲルを含む断熱材を備え、かつ歩行する人が強固な感触を感じることができる床構造及びその製造方法を提供する。【解決手段】床構造1は、建物の床に設置されている。床構造1は、断熱層2と、断熱層2の上に重なる表面板3とを備える。断熱層2は、上方に開口する複数の充填室5を有する枠体4と、複数の充填室5の各々に充填されている断熱材6とを備える。断熱材6は、エアロゲルを含有する。床構造1の上下方向の熱伝導率は0.1W/mK以下である。前記表面板の上面の10mm×10mmの寸法の領域に下方へ向けた荷重が負荷された場合の前記表面板の圧縮強度は15MPa以上である。【選択図】図1

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    Title:

    FLOOR STRUCTURE AND MANUFACTURING METHOD THEREOF

    Additional title:

    床構造及びその製造方法

    Contributors:

    KUGIMIYA KAZUMA (author) / ANDO HIDEYUKI (author)

    Publication date:

    2019-06-20

    Type of media:

    Patent

    Type of material:

    Electronic Resource

    Language:

    Japanese

    Classification:

    IPC:  E04F FINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS , Ausbau von Bauwerken, z.B. Treppen, Fußböden / E04B Allgemeine Baukonstruktionen , GENERAL BUILDING CONSTRUCTIONS

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