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Geological disaster real-time online monitoring device based on pile burying method
The invention relates to the technical field of geological disasters, in particular to a geological disaster real-time online monitoring device based on a pile burying method. The invention aims to solve the problems that the expansion time of a crack cannot be known by an existing crack expansion measurement mode, and the crack expansion can cause loosening of soil on two sides to cause inclination of a timber pile, so that the measurement data is inaccurate. A geological disaster real-time online monitoring device based on a pile burying method comprises transverse plates, distance measuring mechanisms and a limiting mechanism, the distance measuring mechanism is arranged on the transverse plate on the right side, and the limiting mechanism is arranged on the distance measuring mechanism. Through cooperation of the distance measuring mechanism and the limiting mechanism, data are transmitted to the signal transmitting box, then the signal transmitting box transmits the data to the remote control terminal through the Internet of Things communication network, the remote control terminal displays the feedback data, and a user can conveniently monitor the cracking distance in real time.
本发明涉及地质灾害技术领域,尤其涉及一种基于埋桩法的地质灾害实时在线监测装置。本发明的目的是现有对裂缝扩张测量的方式无法得知裂缝的扩张时间,且裂缝扩张会导致两侧的土壤疏松致使木桩倾斜,导致测量数据不准确。一种基于埋桩法的地质灾害实时在线监测装置,包括有横板、测距机构和限位机构,右侧的横板上设置有测距机构,测距机构上设置有限位机构。本发明通过测距机构和限位机构配合,将数据传递至信号发射箱,信号发射箱随之将数据经物联网通讯网络传递远程控制终端,远程控制终端对反馈的数据进行显示,便于用户对其开裂的距离进行实时监测。
Geological disaster real-time online monitoring device based on pile burying method
The invention relates to the technical field of geological disasters, in particular to a geological disaster real-time online monitoring device based on a pile burying method. The invention aims to solve the problems that the expansion time of a crack cannot be known by an existing crack expansion measurement mode, and the crack expansion can cause loosening of soil on two sides to cause inclination of a timber pile, so that the measurement data is inaccurate. A geological disaster real-time online monitoring device based on a pile burying method comprises transverse plates, distance measuring mechanisms and a limiting mechanism, the distance measuring mechanism is arranged on the transverse plate on the right side, and the limiting mechanism is arranged on the distance measuring mechanism. Through cooperation of the distance measuring mechanism and the limiting mechanism, data are transmitted to the signal transmitting box, then the signal transmitting box transmits the data to the remote control terminal through the Internet of Things communication network, the remote control terminal displays the feedback data, and a user can conveniently monitor the cracking distance in real time.
本发明涉及地质灾害技术领域,尤其涉及一种基于埋桩法的地质灾害实时在线监测装置。本发明的目的是现有对裂缝扩张测量的方式无法得知裂缝的扩张时间,且裂缝扩张会导致两侧的土壤疏松致使木桩倾斜,导致测量数据不准确。一种基于埋桩法的地质灾害实时在线监测装置,包括有横板、测距机构和限位机构,右侧的横板上设置有测距机构,测距机构上设置有限位机构。本发明通过测距机构和限位机构配合,将数据传递至信号发射箱,信号发射箱随之将数据经物联网通讯网络传递远程控制终端,远程控制终端对反馈的数据进行显示,便于用户对其开裂的距离进行实时监测。
Geological disaster real-time online monitoring device based on pile burying method
一种基于埋桩法的地质灾害实时在线监测装置
LI DONGMEI (author)
2022-04-15
Patent
Electronic Resource
Chinese
| European Patent Office | 2017