A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
GRATING AND GRATING UNIT
PROBLEM TO BE SOLVED: To reduce the component number of a grating, by making a spacer for holding an interval between adjacent load receiving members absent without relying on a special technique, in a built-up grating constituted of a plurality of load receiving members arranged in the thickness direction and a connection member for connecting the load receiving members.SOLUTION: A projection part 21 is formed on one side surface in the thickness direction of a part of penetrating a connection member 3 of a load receiving member 2, and an insertion hole 2a of penetrating the connection member 3 is formed within a range of the projection part 21, and a forming surface of the projection part 21 of the whole load receiving member 2 is arranged toward the same side, and the connection member 3 is inserted into the insertion hole 2a of the whole load receiving member 2, and in a state of contacting a surface in the thickness direction of the projection part 21 with the load receiving member 2 positioned on its side, the whole load receiving member 2 is connected in the thickness direction.
【課題】厚さ方向に配列する複数本の荷重受け部材と、荷重受け部材を連結する連結部材から構成される組立式のグレーチングにおいて、特殊な手法に依らずに隣接する荷重受け部材間の間隔を保持するスペーサを不在にし、グレーチングの構成部品数を削減する。【解決手段】荷重受け部材2の、連結部材3が貫通する部分の厚さ方向一方側の面に凸部21を形成し、凸部21の範囲内に連結部材3が貫通する挿通孔2aを形成し、全荷重受け部材2の凸部21の形成面を同一側に向けて配列させ、連結部材3を全荷重受け部材2の挿通孔2aに挿通させ、凸部21の厚さ方向の表面をその側に位置する荷重受け部材2に接触させた状態で全荷重受け部材2を厚さ方向に連結する。【選択図】図3
GRATING AND GRATING UNIT
PROBLEM TO BE SOLVED: To reduce the component number of a grating, by making a spacer for holding an interval between adjacent load receiving members absent without relying on a special technique, in a built-up grating constituted of a plurality of load receiving members arranged in the thickness direction and a connection member for connecting the load receiving members.SOLUTION: A projection part 21 is formed on one side surface in the thickness direction of a part of penetrating a connection member 3 of a load receiving member 2, and an insertion hole 2a of penetrating the connection member 3 is formed within a range of the projection part 21, and a forming surface of the projection part 21 of the whole load receiving member 2 is arranged toward the same side, and the connection member 3 is inserted into the insertion hole 2a of the whole load receiving member 2, and in a state of contacting a surface in the thickness direction of the projection part 21 with the load receiving member 2 positioned on its side, the whole load receiving member 2 is connected in the thickness direction.
【課題】厚さ方向に配列する複数本の荷重受け部材と、荷重受け部材を連結する連結部材から構成される組立式のグレーチングにおいて、特殊な手法に依らずに隣接する荷重受け部材間の間隔を保持するスペーサを不在にし、グレーチングの構成部品数を削減する。【解決手段】荷重受け部材2の、連結部材3が貫通する部分の厚さ方向一方側の面に凸部21を形成し、凸部21の範囲内に連結部材3が貫通する挿通孔2aを形成し、全荷重受け部材2の凸部21の形成面を同一側に向けて配列させ、連結部材3を全荷重受け部材2の挿通孔2aに挿通させ、凸部21の厚さ方向の表面をその側に位置する荷重受け部材2に接触させた状態で全荷重受け部材2を厚さ方向に連結する。【選択図】図3
GRATING AND GRATING UNIT
グレーチング及びグレーチングユニット
NUMAJIRI AKIRA (author) / TORIGOE YOSUKE (author) / OGAWA DAIKI (author)
2015-09-28
Patent
Electronic Resource
Japanese