A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
The invention belongs to the technical field of buildings, and particularly relates to a building foundation pile. The building foundation pile comprises a bearing platform and a bottom pile body; a mounting groove is formed in the bearing platform; the bottom pile body is connected into the mounting groove in a sleeved mode; the joint of the bottom pile body and the mounting groove is a spherical protrusion, and the protrusion point makes sliding contact with the inner wall of the mounting groove; the section of the upper portion of the mounting groove is in a U shape, the section of the lower portion of the mounting groove is in a rhombus shape, and the joint of the mounting groove and the bottom pile body is located at the arc face of the U shape of the mounting groove; the bottom of the bottom pile body is fixedly connected with a balance weight ball; and the gravity center of the bottom pile body is located at the center of the balance weight ball. According to the building foundation pile, the bottom pile body is arranged in the mounting groove, due to the gravity effect of the balance weight ball, the bottom pile body rotates and slides on the inner wall of the mounting groove, the bottom pile body is adjusted to be in a vertical state, and therefore the situation that the building foundation pile inclines due to the fact that measurement errors are generated in the construction process is prevented, and the bearing capacity of the building foundation pile is improved.
本发明属于建筑技术领域,具体的说是一种建筑基桩,包括承台和底桩;所述承台内开设有安装槽;所述安装槽内套接有底桩;所述底桩与安装槽的连接处呈球状凸起,且凸起点与安装槽内壁滑动接触;所述安装槽上部截面呈“U”形,安装槽下部截面形状呈菱形,安装槽与底桩的连接处位于安装槽“U”形的弧面处;所述底桩的底部固连有配重球;所述底桩的重心位于配重球的中心处;本发明通过在安装槽内设置底桩,由于配重球的重力作用,使得底桩转动与安装槽内壁滑动,使得底桩调节至竖直状态,从而防止施工过程中产生测量误差,致使建筑基桩倾斜,提高建筑基桩的承载力。
The invention belongs to the technical field of buildings, and particularly relates to a building foundation pile. The building foundation pile comprises a bearing platform and a bottom pile body; a mounting groove is formed in the bearing platform; the bottom pile body is connected into the mounting groove in a sleeved mode; the joint of the bottom pile body and the mounting groove is a spherical protrusion, and the protrusion point makes sliding contact with the inner wall of the mounting groove; the section of the upper portion of the mounting groove is in a U shape, the section of the lower portion of the mounting groove is in a rhombus shape, and the joint of the mounting groove and the bottom pile body is located at the arc face of the U shape of the mounting groove; the bottom of the bottom pile body is fixedly connected with a balance weight ball; and the gravity center of the bottom pile body is located at the center of the balance weight ball. According to the building foundation pile, the bottom pile body is arranged in the mounting groove, due to the gravity effect of the balance weight ball, the bottom pile body rotates and slides on the inner wall of the mounting groove, the bottom pile body is adjusted to be in a vertical state, and therefore the situation that the building foundation pile inclines due to the fact that measurement errors are generated in the construction process is prevented, and the bearing capacity of the building foundation pile is improved.
本发明属于建筑技术领域,具体的说是一种建筑基桩,包括承台和底桩;所述承台内开设有安装槽;所述安装槽内套接有底桩;所述底桩与安装槽的连接处呈球状凸起,且凸起点与安装槽内壁滑动接触;所述安装槽上部截面呈“U”形,安装槽下部截面形状呈菱形,安装槽与底桩的连接处位于安装槽“U”形的弧面处;所述底桩的底部固连有配重球;所述底桩的重心位于配重球的中心处;本发明通过在安装槽内设置底桩,由于配重球的重力作用,使得底桩转动与安装槽内壁滑动,使得底桩调节至竖直状态,从而防止施工过程中产生测量误差,致使建筑基桩倾斜,提高建筑基桩的承载力。