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Method for monitoring early deformation of large-section underground caverns on basis of accurate zone measurement

A technology for underground caverns and deformation monitoring, which is applied to measuring devices, instruments, and optical devices, etc., can solve the problem that the early deformation monitoring of large-span underground caverns cannot be well completed, and the measurement points cannot be accurately aligned and the surface of the rock mass. Concave and concave unequal problems, to achieve the effect of fast measurement, fast installation, and easy portability

Active Publication Date: 2015-07-01
TSINGHUA UNIV
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Problems solved by technology

[0006] Although these methods can carry out deformation measurement under non-reflective targets, due to the inability to accurately center the measurement point, it is impossible to guarantee the consistency of the measurement points at different time intervals, especially in underground caverns excavated by long-span drilling and blasting methods. The surface of the rock mass is uneven. Even if the measurement angle error is 0.05 degrees, the measurement point will deviate from the real measurement position by as much as 26mm (the measurement distance is 30m). Therefore, the above method cannot well complete the early deformation monitoring of large-span underground caverns.

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  • Method for monitoring early deformation of large-section underground caverns on basis of accurate zone measurement
  • Method for monitoring early deformation of large-section underground caverns on basis of accurate zone measurement
  • Method for monitoring early deformation of large-section underground caverns on basis of accurate zone measurement

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Embodiment Construction

[0019] The present invention provides a method for monitoring early deformation of large-section underground caverns based on section fine measurement, which will be further described in detail with reference to the accompanying drawings:

[0020] The method for monitoring early deformation of a large-section underground cavern includes the following steps:

[0021] 1) Firstly, install the section fine measuring device such as figure 1 , figure 2 As shown, the device includes four parts: a laser measurement module 5, a rotation mechanism 6, a quick release plate 4 and a base 1; wherein, the rotation mechanism 6 is fixed to the quick release plate 4 by locking screws, and the laser measurement module 5 passes through its bottom The screw holes in the shaft are fixed to the quick-release plate 4 of the rotating mechanism 6, thus forming a detachable measuring device; when the excavation of the face of the cavern is completed, it is immediately measured at a distance of 0.5m fr...

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Abstract

The invention discloses a method for monitoring early deformation of large-section underground caverns on the basis of accurate zone measurement, and belongs to the ranges of technologies for measuring deformation of underground caverns during geotechnical engineering. The method includes mounting zone accurate measurement devices including a laser measurement module, a rotation mechanism, a quick mounting plate and a base; accurately measuring concerned positions of section sides of the caverns zones by zones by the aid of the zone accurate measurement devices in different durations, splicing zone measurement data obtained in the different durations and directly comparing and computing the direct zones to obtain deformation vectors of the concerned positions. The method has the advantages that the early deformation of the large-section underground caverns can be monitored, the zone accurate measurement devices are small, are easy and convenient to use and free of target points, influence of blasting and accurate centering and can be quickly mounted adjacent to tunnel faces, the method is particularly applicable to monitoring early deformation of underground spaces excavated by the aid of drilling and blasting processes, and the like.

Description

technical field [0001] The invention belongs to the technical scope of deformation measurement of underground caverns in geotechnical engineering, and in particular relates to an early deformation monitoring method of large-section underground caverns based on section fine measurement. Background technique [0002] The design and construction of underground caverns need to adjust the design parameters and construction technology in real time according to the physical and mechanical properties of the excavated rock mass. The most direct and effective method to identify the performance of excavated rock mass is early deformation monitoring. In fact, before the excavation of the tunnel face, the surrounding rock has already undergone about 30% deformation; after the excavation of the face and the first deformation measurement, another 30% to 50% deformation occurred. Therefore, in order to capture as much deformation information of the rock mass as possible, it is urgent to es...

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Application Information

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IPC IPC(8): G01B11/16
Inventor 段云岭吕小宁冯金铭魏雪斐
Owner TSINGHUA UNIV
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