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A platform for research: civil engineering, architecture and urbanism
LATH COMPOSITE AND PRODUCTION METHOD THEREOF, AND COATED BODY AND CONSTRUCTION METHOD THAT ARE BASED ON LATH COMPOSITE
To provide: a lath composite comprising a waterproof material sheet and ribs, which is suitable to obtain a coating layer in which a lath material is positioned in an intermediate part in a thickness direction; and a production method, a coated body, and a construction method.SOLUTION: Front ribs F, a lath material L, flexible strings S, back ribs B and a waterproof material sheet W are stacked in this order in a front-back direction. The front ribs F and the back ribs B are made of a steel wire material higher in rigidity and strength than a linear material constituting the lath material L, and are welded to the lath material L such that each front rib F and each back rib B intersect each other at about 90 degrees. The flexible strings S are in a round string shape, thicker than the front ribs F and the back ribs B, and larger in a dimension in the front-back direction of a lath composite A than the back ribs B. A front face of the waterproof material sheet W is joined to a back face part of the flexible strings S by means of an adhesive; a back side of the lath material L and the front face of the waterproof material sheet W are separated by a much larger dimension than the diameter of the back ribs B in the front-back direction across the flexible strings S.SELECTED DRAWING: Figure 7
【課題】 厚さ方向中間部にラス材が位置する塗工層を得る上で好適な、シート状防水材と力骨を備えたラス複合体、製法、塗工体及び工法の提供。【解決手段】 表力骨Fとラス材Lと可撓性条体Sと裏力骨Bとシート状防水材Wを、表裏方向にこの順に重ね合わせる。表力骨F及び裏力骨Bは、ラス材Lを構成する線状材よりも剛性及び強度の高い鋼製線材であり、互いに約90度で交差する状態でラス材Lに対し溶接する。可撓性条体Sは丸紐状の可撓性の条体であり、表力骨F及び裏力骨Bよりも太く、ラス複合体Aにおける表裏方向寸法が裏力骨Bよりも大きい。可撓性条体Sの裏側部には、接着剤によりシート状防水材Wの表側面が接合されラス材Lの裏側とシート状防水材Wの表側面は、可撓性条体Sを挟んで表裏方向に裏力骨Bの直径を大きく上回る寸法で離隔している。【選択図】 図7
LATH COMPOSITE AND PRODUCTION METHOD THEREOF, AND COATED BODY AND CONSTRUCTION METHOD THAT ARE BASED ON LATH COMPOSITE
To provide: a lath composite comprising a waterproof material sheet and ribs, which is suitable to obtain a coating layer in which a lath material is positioned in an intermediate part in a thickness direction; and a production method, a coated body, and a construction method.SOLUTION: Front ribs F, a lath material L, flexible strings S, back ribs B and a waterproof material sheet W are stacked in this order in a front-back direction. The front ribs F and the back ribs B are made of a steel wire material higher in rigidity and strength than a linear material constituting the lath material L, and are welded to the lath material L such that each front rib F and each back rib B intersect each other at about 90 degrees. The flexible strings S are in a round string shape, thicker than the front ribs F and the back ribs B, and larger in a dimension in the front-back direction of a lath composite A than the back ribs B. A front face of the waterproof material sheet W is joined to a back face part of the flexible strings S by means of an adhesive; a back side of the lath material L and the front face of the waterproof material sheet W are separated by a much larger dimension than the diameter of the back ribs B in the front-back direction across the flexible strings S.SELECTED DRAWING: Figure 7
【課題】 厚さ方向中間部にラス材が位置する塗工層を得る上で好適な、シート状防水材と力骨を備えたラス複合体、製法、塗工体及び工法の提供。【解決手段】 表力骨Fとラス材Lと可撓性条体Sと裏力骨Bとシート状防水材Wを、表裏方向にこの順に重ね合わせる。表力骨F及び裏力骨Bは、ラス材Lを構成する線状材よりも剛性及び強度の高い鋼製線材であり、互いに約90度で交差する状態でラス材Lに対し溶接する。可撓性条体Sは丸紐状の可撓性の条体であり、表力骨F及び裏力骨Bよりも太く、ラス複合体Aにおける表裏方向寸法が裏力骨Bよりも大きい。可撓性条体Sの裏側部には、接着剤によりシート状防水材Wの表側面が接合されラス材Lの裏側とシート状防水材Wの表側面は、可撓性条体Sを挟んで表裏方向に裏力骨Bの直径を大きく上回る寸法で離隔している。【選択図】 図7
LATH COMPOSITE AND PRODUCTION METHOD THEREOF, AND COATED BODY AND CONSTRUCTION METHOD THAT ARE BASED ON LATH COMPOSITE
ラス複合体及びその製造方法並びにラス複合体を用いた塗工体及び工法
FUSHIKI TSUYOSHI (author) / ONISHI TORU (author) / URANO MASAHIKO (author)
2021-12-13
Patent
Electronic Resource
Japanese
IPC:
E04F
FINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
,
Ausbau von Bauwerken, z.B. Treppen, Fußböden
| European Patent Office | 2021