Structural crack bionic monitoring system and monitoring method thereof

A monitoring system and bionic technology, applied in the online monitoring system and its monitoring field, can solve the problems of unpredictable time and location, uneconomical, practical, long-term, online, accurate monitoring of cracks, and difficulty in clearly pointing out the specific location of damage, etc. , to achieve the effect of convenient and simple use, reliable results and high efficiency

Inactive Publication Date: 2008-11-05
CHONGQING JIAOTONG UNIVERSITY
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In view of the unpredictability of the original defects of materials, design and construction deviations, use and environmental degradation, the time and location of structural damage are difficult to predict, and the existing monitoring methods with limited points are difficult to capture the initial damage caused by structural damage, even if the monitoring points show Without the abnormal test data, it is difficult to clearly point out the specific part of the injury
The existing fracture monitoring technology is difficult to achieve economical, practical, long-term, online, and accurate monitoring of the occurrence and development of fractures

Method used

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  • Structural crack bionic monitoring system and monitoring method thereof
  • Structural crack bionic monitoring system and monitoring method thereof
  • Structural crack bionic monitoring system and monitoring method thereof

Examples

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Effect test

Embodiment 1

[0030] figure 1 It is a structural schematic diagram of Embodiment 1 of the present invention, as shown in the figure: the structural crack bionic monitoring system of the present invention is composed of multiple parallel smart lines I1 and multiple parallel smart lines II2 pasted on the surface of the concrete structure 8 to be monitored The monitoring unit of the smart line I1 and the smart line II2 are composed of three wires with different diameters and parallel to each other, which can monitor the cracks of the three different widths concerned. Conductors produce different tensile forces, and conductors of different diameters can withstand different breaking forces. According to the fracture conditions of conductors of different diameters, the width of cracks can be monitored; smart line I1 and smart line II2 are vertically intersected, and the adjacent smart line I1 The distance between the space and the adjacent smart line II2 is 10cm. According to the concrete structu...

Embodiment 2

[0033] figure 2It is a structural schematic diagram of Embodiment 2 of the present invention, as shown in the figure: the structural crack bionic monitoring system of the present invention is composed of multiple parallel smart lines I1 and multiple parallel smart lines II2 pasted on the surface of the concrete structure 8 to be monitored The monitoring unit of the smart line I1 and the smart line II2 are composed of three wires with different diameters and parallel to each other, which can monitor the cracks of the three different widths concerned. Conductors produce different tensile forces, and conductors with different diameters can withstand different breaking forces. According to the fracture conditions of conductors with different diameters, the width of cracks can be monitored; the smart line I1 and smart line II2 are set at an inclined cross, and the inclined setting can adapt to the cracks that are prone to cracks. Horizontal or longitudinal cracks, but the vertical...

Embodiment 3

[0036] image 3 It is a structural schematic diagram of Embodiment 3 of the present invention, as shown in the figure: the structural crack bionic monitoring system of the present invention is composed of multiple parallel sensitive lines I1 and multiple parallel sensitive lines II2 pasted on the surface of the concrete structure 8 to be monitored The monitoring unit of the smart line I1 and the smart line II2 are composed of three wires with different diameters and parallel to each other, which can monitor the cracks of the three different widths concerned. Conductors produce different pulling forces, and conductors of different diameters can withstand different breaking forces. According to the fracture conditions of conductors of different diameters, the width of cracks can be monitored; smart line I1 and smart line II2 are set crosswise, and multiple smart lines I1 It is set in a fan-shaped divergence, and multiple smart lines II2 are set in parallel in a circular arc in t...

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Abstract

The present invention discloses a structural crack bionic monitoring system and a monitoring method thereof. The structural crack bionic monitoring system comprises a plurality of smart wires I on the structure to be monitored and a monitoring unit composed of a plurality of smart wires II. The smart wires I and II which are insulated from one another are crossly provided on the structure to be monitored to compose a smart neural network of plane coordinate system on the structure to be monitored. The invention can accurately confirm the generated position, shape, length, time and expanding state of the slit according to the perception mechanism of the animal skin to the wound through the analysis of the signal processing device to the signal that is transmitted and received by the smart wire I and II. The engineering structure can be actualized with continous and omnibearing damage state monitoring. The bionic monitoring sensing system has the advantages of convenient and simple operation, high efficiency, low cost and reliable result.

Description

technical field [0001] The invention relates to an online monitoring system and a monitoring method thereof, in particular to a structural crack bionic monitoring system and a monitoring method thereof. Background technique [0002] The disease and final failure of concrete structures start with the occurrence and development of cracks, and the condition of cracks in key areas becomes the main basis for visually judging the health of concrete structures. For this reason, experts and scholars from all over the world have done a lot of exploration and research on the monitoring methods for the occurrence and development of cracks in key areas during the use of concrete structures. The existing sensing technologies for safety monitoring of engineering structures include: a. Implant or paste functional optical fiber on the structure, and judge the deformation or fracture of the structure in real time by measuring the deformation or fracture of the optical fiber; b. Elastic stra...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01N27/20G01B7/02
Inventor 周志祥张奔牛
Owner CHONGQING JIAOTONG UNIVERSITY
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