A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
CONVEXITY-CONCAVITY FORMATIVE TOOL AND CONVEXITY-CONCAVITY FORMATIVE METHOD
PROBLEM TO BE SOLVED: To provide a convexity-concavity formative tool capable of accurately forming a convexity and a concavity in a direction over a wide range of an indoor inner wall surface.SOLUTION: A convexity-concavity formative tool 10B comprises a frame having a front and rear edge plate extending in a width direction and a first and a second slide rails extending in a front-rear direction, and a plurality of convexity-concavity detection gauges that are installed on the front edge plate, movable back and forth in the front-rear direction, and lined up in the width direction adjacent to each other. With the convexity-concavity formative tool 10B, a tip of the convexity-concavity detection gauges is positioned opposite an indoor inner wall surface and brought in contact with the inner wall surface. Thus, the convexity-concavity detection gauges move back and forth in the front-rear direction to suit a convexity and a concavity on the inner wall surface, causing the convexity-concavity detection gauges to form the convexity and the concavity in a direction on the inner wall surface.SELECTED DRAWING: Figure 7
【課題】屋内の内壁面の一方向の凹凸を広い範囲で正確に象ることができる凹凸象形器具を提供する。【解決手段】凹凸象形器具10Bは、幅方向へ延びる前後端プレートと前後方向へ延びる第1および第2スライドレールとを有するフレームと、前端プレートに設置されて前後方向へ進退可能であり、互いに隣接して幅方向へ並ぶ複数の凹凸検出ゲージとから形成されている。凹凸象形器具10Bでは、それら凹凸検出ゲージの先端を屋内の内壁面に対向させ、それら凹凸検出ゲージの先端を内壁面に当接させることで、内壁面の凹凸にあわせてそれら凹凸検出ゲージが前後方向へ進退し、内壁面の一方向の凹凸がそれら凹凸検出ゲージに象られる。【選択図】図7
CONVEXITY-CONCAVITY FORMATIVE TOOL AND CONVEXITY-CONCAVITY FORMATIVE METHOD
PROBLEM TO BE SOLVED: To provide a convexity-concavity formative tool capable of accurately forming a convexity and a concavity in a direction over a wide range of an indoor inner wall surface.SOLUTION: A convexity-concavity formative tool 10B comprises a frame having a front and rear edge plate extending in a width direction and a first and a second slide rails extending in a front-rear direction, and a plurality of convexity-concavity detection gauges that are installed on the front edge plate, movable back and forth in the front-rear direction, and lined up in the width direction adjacent to each other. With the convexity-concavity formative tool 10B, a tip of the convexity-concavity detection gauges is positioned opposite an indoor inner wall surface and brought in contact with the inner wall surface. Thus, the convexity-concavity detection gauges move back and forth in the front-rear direction to suit a convexity and a concavity on the inner wall surface, causing the convexity-concavity detection gauges to form the convexity and the concavity in a direction on the inner wall surface.SELECTED DRAWING: Figure 7
【課題】屋内の内壁面の一方向の凹凸を広い範囲で正確に象ることができる凹凸象形器具を提供する。【解決手段】凹凸象形器具10Bは、幅方向へ延びる前後端プレートと前後方向へ延びる第1および第2スライドレールとを有するフレームと、前端プレートに設置されて前後方向へ進退可能であり、互いに隣接して幅方向へ並ぶ複数の凹凸検出ゲージとから形成されている。凹凸象形器具10Bでは、それら凹凸検出ゲージの先端を屋内の内壁面に対向させ、それら凹凸検出ゲージの先端を内壁面に当接させることで、内壁面の凹凸にあわせてそれら凹凸検出ゲージが前後方向へ進退し、内壁面の一方向の凹凸がそれら凹凸検出ゲージに象られる。【選択図】図7
CONVEXITY-CONCAVITY FORMATIVE TOOL AND CONVEXITY-CONCAVITY FORMATIVE METHOD
凹凸象形器具および凹凸象り方法
TAKAGI KAZUMASA (author) / TAKAGI EIZO (author) / ABE KOTARO (author) / KOBAYASHI MANABU (author) / MATSUMURA KOJI (author) / YASUO YUTO (author)
2018-01-25
Patent
Electronic Resource
Japanese
IPC:
E04F
FINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
,
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