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A platform for research: civil engineering, architecture and urbanism
Bridge detection device
The invention relates to a bridge detection device, and aims to solve the technical problem of high risk of a current manual suspension type bridge steel cable detection mode, the bridge detection device comprises a main connecting frame, a detection head A, a same-distance adjusting mechanism, a detection head B, a self-adaptive adjusting mechanism and a driving mechanism; a clamping cavity is formed by gaps between the multiple main connecting frames which are annularly arranged at equal intervals. The detection head A is arranged on the main connecting frame; the two same-distance adjusting mechanisms are symmetrically arranged at the two ends of the multiple main connecting frames. And the plurality of detection heads B are annularly arranged on the surface of one of the same-distance adjusting mechanisms at equal intervals. A bridge steel cable is clamped through a surrounding structure of the same-distance adjusting mechanism, a movable adjusting position is formed in cooperation with the driving mechanism, flaw detection work is conducted on the surface of the steel cable under the assistance of the detection head A and the detection head B. The bridge detection device can achieve detection work without being hung on the bridge steel cable manually, and the detection efficiency is improved. And potential safety hazards caused by manual high-altitude operation are effectively avoided.
本发明涉及一种桥梁检测装置,旨在解决当前人工悬吊式检测桥梁钢缆方式危险性高的技术问题,包括主连接架、探测头A、同距调节机构、探测头B、自适应调节机构及驱动机构;若干呈环形等间距布置的所述主连接架间隙构成夹持腔;所述探测头A布置于所述主连接架上;两个所述同距调节机构对称布置于若干所述主连接架两端;若干所述探测头B呈环形等间距布置于其中一个所述同距调节机构表面。本发明通过同距调节机构环绕式结构来对桥梁钢缆进行夹持,并配合驱动机构形成移动调节位置,以及探测头A、探测头B辅助下对钢缆表面进行探伤检测工作,该桥梁检测装置使得无需人工悬吊至桥梁钢索上,即可实现检测工作,有效避免人工高空作业存在的安全隐患。
Bridge detection device
The invention relates to a bridge detection device, and aims to solve the technical problem of high risk of a current manual suspension type bridge steel cable detection mode, the bridge detection device comprises a main connecting frame, a detection head A, a same-distance adjusting mechanism, a detection head B, a self-adaptive adjusting mechanism and a driving mechanism; a clamping cavity is formed by gaps between the multiple main connecting frames which are annularly arranged at equal intervals. The detection head A is arranged on the main connecting frame; the two same-distance adjusting mechanisms are symmetrically arranged at the two ends of the multiple main connecting frames. And the plurality of detection heads B are annularly arranged on the surface of one of the same-distance adjusting mechanisms at equal intervals. A bridge steel cable is clamped through a surrounding structure of the same-distance adjusting mechanism, a movable adjusting position is formed in cooperation with the driving mechanism, flaw detection work is conducted on the surface of the steel cable under the assistance of the detection head A and the detection head B. The bridge detection device can achieve detection work without being hung on the bridge steel cable manually, and the detection efficiency is improved. And potential safety hazards caused by manual high-altitude operation are effectively avoided.
本发明涉及一种桥梁检测装置,旨在解决当前人工悬吊式检测桥梁钢缆方式危险性高的技术问题,包括主连接架、探测头A、同距调节机构、探测头B、自适应调节机构及驱动机构;若干呈环形等间距布置的所述主连接架间隙构成夹持腔;所述探测头A布置于所述主连接架上;两个所述同距调节机构对称布置于若干所述主连接架两端;若干所述探测头B呈环形等间距布置于其中一个所述同距调节机构表面。本发明通过同距调节机构环绕式结构来对桥梁钢缆进行夹持,并配合驱动机构形成移动调节位置,以及探测头A、探测头B辅助下对钢缆表面进行探伤检测工作,该桥梁检测装置使得无需人工悬吊至桥梁钢索上,即可实现检测工作,有效避免人工高空作业存在的安全隐患。
Bridge detection device
一种桥梁检测装置
HU BAIQING (author) / CHEN HUI (author) / PENG HAIYAN (author) / LU NING (author) / HUANG JINHUA (author) / WU SHAOHAI (author) / HUANG LIPU (author)
2023-09-05
Patent
Electronic Resource
Chinese
IPC:
E01D
BRIDGES
,
Brücken