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A platform for research: civil engineering, architecture and urbanism
SLOPE PROTECTION SYSTEM
PROBLEM TO BE SOLVED: To provide a slope protection system in which netted bodies, pressure plates and anchors are used, and in which it is possible to increase a pressing area of the pressure plate without increasing the size of the pressure plate and to prevent damage to the netted body.SOLUTION: A slope protection system 10 has anchors 12 installed so that they are dispersed on a slope 102 of a natural ground, netted bodies 14 installed so as to extend on the slope 102, and pressure plates 16 that are mounted on the anchors 12 from above the netted bodies 14 and that press the netted bodies 14 to the slope side. The pressure plate 16 has at least three main skeleton parts extending by predetermined lengths in directions different from each other outwards in a plane direction from the center of the pressure plate 16, and a connection member that spans a space between the tips of the main skeleton parts so as to connect the tips. The connection member is inserted into a mesh of the netted body 14 in the space between the tips.SELECTED DRAWING: Figure 1
【課題】網状体と受圧板とアンカーとを用いる斜面保護システムであって、受圧板のサイズを大きくすることなく、受圧板による押圧面積を増やすことができ、且つ網状体の損傷を抑制することができる斜面保護システムを提供すること。【解決手段】地山の斜面102に点在させて設置されたアンカー12と、斜面102上に展設された網状体14と、網状体14の上方からアンカー12に取り付けられて網状体14を斜面側に押圧する受圧板16と、を有する斜面保護システム10であって、受圧板16は、受圧板16の中心から平面方向外方にそれぞれ異なる方向で所定長さ伸長する少なくとも3本の主骨格部と、主骨格部の先端部間に架け渡されて該先端部間を連結する連結部材とを有し、連結部材は、前記先端部間において網状体14の網目内に挿通されていることを特徴とする斜面保護システム10。【選択図】図1
SLOPE PROTECTION SYSTEM
PROBLEM TO BE SOLVED: To provide a slope protection system in which netted bodies, pressure plates and anchors are used, and in which it is possible to increase a pressing area of the pressure plate without increasing the size of the pressure plate and to prevent damage to the netted body.SOLUTION: A slope protection system 10 has anchors 12 installed so that they are dispersed on a slope 102 of a natural ground, netted bodies 14 installed so as to extend on the slope 102, and pressure plates 16 that are mounted on the anchors 12 from above the netted bodies 14 and that press the netted bodies 14 to the slope side. The pressure plate 16 has at least three main skeleton parts extending by predetermined lengths in directions different from each other outwards in a plane direction from the center of the pressure plate 16, and a connection member that spans a space between the tips of the main skeleton parts so as to connect the tips. The connection member is inserted into a mesh of the netted body 14 in the space between the tips.SELECTED DRAWING: Figure 1
【課題】網状体と受圧板とアンカーとを用いる斜面保護システムであって、受圧板のサイズを大きくすることなく、受圧板による押圧面積を増やすことができ、且つ網状体の損傷を抑制することができる斜面保護システムを提供すること。【解決手段】地山の斜面102に点在させて設置されたアンカー12と、斜面102上に展設された網状体14と、網状体14の上方からアンカー12に取り付けられて網状体14を斜面側に押圧する受圧板16と、を有する斜面保護システム10であって、受圧板16は、受圧板16の中心から平面方向外方にそれぞれ異なる方向で所定長さ伸長する少なくとも3本の主骨格部と、主骨格部の先端部間に架け渡されて該先端部間を連結する連結部材とを有し、連結部材は、前記先端部間において網状体14の網目内に挿通されていることを特徴とする斜面保護システム10。【選択図】図1
SLOPE PROTECTION SYSTEM
斜面保護システム
OOKA SHINKICHI (author) / CHO MITSUYOSHI (author)
2018-08-23
Patent
Electronic Resource
Japanese
IPC:
E02D
FOUNDATIONS
,
Gründungen
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