Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Power transmission tower main material root supporting structure
The invention discloses a power transmission tower main material root supporting structure and belongs to the technical field of power transmission tower main material reinforcement. The problem that an angle steel structure serving as a main material of a power transmission tower is poor in deformation resistance is solved. Comprising an inner auxiliary angle steel section, a plurality of reinforcing ribs and a plurality of horizontal supporting plates, the inner auxiliary angle steel section is fixed to the inner wall of the angle steel supporting foot, and the horizontal supporting plates are evenly arranged on the inner auxiliary angle steel section from the top end to the bottom end; the horizontal supporting plate is triangular, and the two edges of the horizontal supporting plate are attached to the inner wall of the inner auxiliary angle steel section. A section of reinforcing rib is arranged between every two horizontal supporting plates; the surface of the outer side wall of the reinforcing rib is parallel to the third edge of the horizontal supporting plate; the reinforcing ribs are arranged close to the break angles of the inner auxiliary angle steel sections; the reinforcing ribs are in a plate shape or in a block shape with a triangular section. And two surfaces of the blocky reinforcing rib are attached to the inner wall of the inner auxiliary angle steel section. The auxiliary supporting device is used for auxiliary supporting of the main material roots.
一种输电塔主材根部支撑结构,属于输电塔主材加固技术领域。本发明针对作为输电塔主材的角钢结构抗变形能力差的问题。包括:内辅助支撑单元固定在角钢支脚根部段的内壁,所述内辅助支撑单元包括内辅助角钢段、多段加强肋和多个水平支撑板,内辅助角钢段固定于角钢支脚的内壁,内辅助角钢段由顶端至底端均匀设置多个水平支撑板,水平支撑板为三角形,水平支撑板的两条边与内辅助角钢段的内壁贴合;每两个水平支撑板之间设置一段加强肋;加强肋的外侧壁表面与水平支撑板的第三条边平行;加强肋靠近内辅助角钢段的折角设置;所述加强肋为板状或具有三角形截面的块状;块状加强肋的两个面与内辅助角钢段的内壁贴合。本发明用于主材根部辅助支撑。
Power transmission tower main material root supporting structure
The invention discloses a power transmission tower main material root supporting structure and belongs to the technical field of power transmission tower main material reinforcement. The problem that an angle steel structure serving as a main material of a power transmission tower is poor in deformation resistance is solved. Comprising an inner auxiliary angle steel section, a plurality of reinforcing ribs and a plurality of horizontal supporting plates, the inner auxiliary angle steel section is fixed to the inner wall of the angle steel supporting foot, and the horizontal supporting plates are evenly arranged on the inner auxiliary angle steel section from the top end to the bottom end; the horizontal supporting plate is triangular, and the two edges of the horizontal supporting plate are attached to the inner wall of the inner auxiliary angle steel section. A section of reinforcing rib is arranged between every two horizontal supporting plates; the surface of the outer side wall of the reinforcing rib is parallel to the third edge of the horizontal supporting plate; the reinforcing ribs are arranged close to the break angles of the inner auxiliary angle steel sections; the reinforcing ribs are in a plate shape or in a block shape with a triangular section. And two surfaces of the blocky reinforcing rib are attached to the inner wall of the inner auxiliary angle steel section. The auxiliary supporting device is used for auxiliary supporting of the main material roots.
一种输电塔主材根部支撑结构,属于输电塔主材加固技术领域。本发明针对作为输电塔主材的角钢结构抗变形能力差的问题。包括:内辅助支撑单元固定在角钢支脚根部段的内壁,所述内辅助支撑单元包括内辅助角钢段、多段加强肋和多个水平支撑板,内辅助角钢段固定于角钢支脚的内壁,内辅助角钢段由顶端至底端均匀设置多个水平支撑板,水平支撑板为三角形,水平支撑板的两条边与内辅助角钢段的内壁贴合;每两个水平支撑板之间设置一段加强肋;加强肋的外侧壁表面与水平支撑板的第三条边平行;加强肋靠近内辅助角钢段的折角设置;所述加强肋为板状或具有三角形截面的块状;块状加强肋的两个面与内辅助角钢段的内壁贴合。本发明用于主材根部辅助支撑。
Power transmission tower main material root supporting structure
输电塔主材根部支撑结构
XIAO TONGXIN (Autor:in) / JIN ZHIYU (Autor:in) / YU GUOLIANG (Autor:in) / SHAN LIANG (Autor:in) / JIANG CHUANBO (Autor:in) / WANG LONGSHAN (Autor:in) / ZHANG FAN (Autor:in) / LIANG LEILEI (Autor:in)
22.12.2023
Patent
Elektronische Ressource
Chinesisch
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