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A platform for research: civil engineering, architecture and urbanism
The invention relates to a self-balancing detection device and method for pile foundation bearing capacity, and belongs to the technical field of pile foundation detection.The self-balancing detection device comprises a sleeving cylinder used for sleeving a pile foundation, the inner diameter of the sleeving cylinder is equal to the outer diameter of the pile foundation, a plurality of bearing rods are arranged in the sleeving cylinder, the bearing rods are parallel to the axis direction of the sleeving cylinder, and the sleeving cylinder is filled with the bearing rods; the bearing rod comprises a first rod body and a second rod body, the first rod body is arranged along the inner ring of the sleeving cylinder, the cross section of the first rod body is arc-shaped and is attached to the inner wall of the sleeving cylinder, the cross section of the second rod body is rectangular, the second rod body is located in a space surrounded by the first rod body, and after the sleeving cylinder sleeves the pile foundation, the first rod body and the second rod body are pressed, so that the pile foundation is supported by the bearing rod. The bottoms of the first rod body and the second rod body are supported at the top of the pile foundation, the jack is arranged at the cut ends of the first rod body and the second rod body, and the cut tops of the first rod body and the second rod body are flush with the top of the sleeving cylinder. The method has the effect of improving the pile foundation bearing capacity detection efficiency.
本申请涉及一种桩基承载力的自平衡检测装置及方法,属于桩基检测技术领域,包括用于套接桩基的套接筒,套接筒的内径等于桩基的外径,套接筒内设置有多根承接杆,多根承接杆平行于套接筒轴线方向,承接杆填充在套接筒内,承接杆包括第一杆体和第二杆体,第一杆体沿套接筒内环排布,第一杆体的横截面呈弧形且贴合在套接筒内壁,第二杆体的横截面呈矩形,第二杆体位于第一杆体围绕的空间内,套接筒套接桩基后、按压第一杆体和第二杆体,使第一杆体和第二杆体的底部承接在桩基顶部,千斤顶置于第一杆体和第二杆体切割后的端部,第一杆体和第二杆体切割后的顶部与套接筒的顶部齐平。本申请具有提高桩基承载力检测效率的效果。
The invention relates to a self-balancing detection device and method for pile foundation bearing capacity, and belongs to the technical field of pile foundation detection.The self-balancing detection device comprises a sleeving cylinder used for sleeving a pile foundation, the inner diameter of the sleeving cylinder is equal to the outer diameter of the pile foundation, a plurality of bearing rods are arranged in the sleeving cylinder, the bearing rods are parallel to the axis direction of the sleeving cylinder, and the sleeving cylinder is filled with the bearing rods; the bearing rod comprises a first rod body and a second rod body, the first rod body is arranged along the inner ring of the sleeving cylinder, the cross section of the first rod body is arc-shaped and is attached to the inner wall of the sleeving cylinder, the cross section of the second rod body is rectangular, the second rod body is located in a space surrounded by the first rod body, and after the sleeving cylinder sleeves the pile foundation, the first rod body and the second rod body are pressed, so that the pile foundation is supported by the bearing rod. The bottoms of the first rod body and the second rod body are supported at the top of the pile foundation, the jack is arranged at the cut ends of the first rod body and the second rod body, and the cut tops of the first rod body and the second rod body are flush with the top of the sleeving cylinder. The method has the effect of improving the pile foundation bearing capacity detection efficiency.
本申请涉及一种桩基承载力的自平衡检测装置及方法,属于桩基检测技术领域,包括用于套接桩基的套接筒,套接筒的内径等于桩基的外径,套接筒内设置有多根承接杆,多根承接杆平行于套接筒轴线方向,承接杆填充在套接筒内,承接杆包括第一杆体和第二杆体,第一杆体沿套接筒内环排布,第一杆体的横截面呈弧形且贴合在套接筒内壁,第二杆体的横截面呈矩形,第二杆体位于第一杆体围绕的空间内,套接筒套接桩基后、按压第一杆体和第二杆体,使第一杆体和第二杆体的底部承接在桩基顶部,千斤顶置于第一杆体和第二杆体切割后的端部,第一杆体和第二杆体切割后的顶部与套接筒的顶部齐平。本申请具有提高桩基承载力检测效率的效果。
Self-balancing detection device and method for bearing capacity of pile foundation
一种桩基承载力的自平衡检测装置及方法
2024-05-10
Patent
Electronic Resource
Chinese
IPC:
E02D
FOUNDATIONS
,
Gründungen
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