A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Method for intelligently monitoring and evaluating stability of slope dangerous rock mass
The invention relates to the technical field of mine engineering, in particular to a method for intelligently monitoring and evaluating the stability of a slope dangerous rock mass, which comprises the following steps of: S1, delineating an unstable area range; s2, key monitoring parts are determined; s3, micro-core piles and joint meters are arranged in a network shape; s4, determining dangerous rock mass safety monitoring technical indexes and threshold values according to the actual situation of the site; and S5, intelligent evaluation of the stability of the dangerous rock mass is achieved through collaborative observation data of the micro-core pile and the joint meter. According to the method, the stability of the slope dangerous rock mass can be better evaluated.
本发明涉及矿山工程技术领域,具体地说,涉及一种智能监测评价边坡危岩体稳定性的方法,其包括以下步骤:步骤S1:圈定不稳定区域范围;步骤S2:确定重点监测部位;步骤S3:网络状布置微芯桩及测缝计;步骤S4:根据现场实际情况确定危岩体安全监测技术指标及阈值;步骤S5:通过微芯桩与测缝计的协同观测数据实现智能评价危岩体的稳定性。本发明能较佳地评价边坡危岩体稳定性。
Method for intelligently monitoring and evaluating stability of slope dangerous rock mass
The invention relates to the technical field of mine engineering, in particular to a method for intelligently monitoring and evaluating the stability of a slope dangerous rock mass, which comprises the following steps of: S1, delineating an unstable area range; s2, key monitoring parts are determined; s3, micro-core piles and joint meters are arranged in a network shape; s4, determining dangerous rock mass safety monitoring technical indexes and threshold values according to the actual situation of the site; and S5, intelligent evaluation of the stability of the dangerous rock mass is achieved through collaborative observation data of the micro-core pile and the joint meter. According to the method, the stability of the slope dangerous rock mass can be better evaluated.
本发明涉及矿山工程技术领域,具体地说,涉及一种智能监测评价边坡危岩体稳定性的方法,其包括以下步骤:步骤S1:圈定不稳定区域范围;步骤S2:确定重点监测部位;步骤S3:网络状布置微芯桩及测缝计;步骤S4:根据现场实际情况确定危岩体安全监测技术指标及阈值;步骤S5:通过微芯桩与测缝计的协同观测数据实现智能评价危岩体的稳定性。本发明能较佳地评价边坡危岩体稳定性。
Method for intelligently monitoring and evaluating stability of slope dangerous rock mass
一种智能监测评价边坡危岩体稳定性的方法
WANG HAOFAN (author) / LI BIAO (author) / XU NUWEN (author) / XIAO PEIWEI (author) / QIAN HONGJIAN (author) / LIN KAISHENG (author) / CHEN MIN (author) / YI LEI (author) / ZHANG YUNFENG (author) / XIANG JIE (author)
2024-06-14
Patent
Electronic Resource
Chinese
Support setting method and system for slope dangerous rock mass
| European Patent Office | 2023
Collapse prevention and control device suitable for slope dangerous rock mass
| European Patent Office | 2021
Advanced identification and support method for strip mine slope dangerous rock mass
| European Patent Office | 2024
Slope local dangerous rock mass dynamic grouting reinforcement structure and reinforcement method
| European Patent Office | 2023
| DOAJ | 2021