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Carbon nano tube cement based composite sensor testing system

A sensor subsystem and composite material technology, applied in the field of engineering structure sensor test system, can solve the problems of increasing the number of sensors, increasing the complexity of the data volume system, affecting the reliability and flexibility of the system, and increasing the load of the monitoring object, etc. Effects of destruction, improved transmission distance, and reduced measurement error

Inactive Publication Date: 2013-04-03
SHANDONG UNIV OF SCI & TECH
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Problems solved by technology

[0004] As monitoring requirements increase, the number of sensors, the amount of data to be processed, and the complexity of the system will all increase significantly
If the traditional wired method is used for structural health monitoring, not only the wiring is cumbersome, but also a large number of wiring will increase the load of the monitoring object, and the time and cost of later maintenance will be considerable.
At the same time, this traditional serial centralized monitoring system will also greatly affect the reliability and flexibility of the system

Method used

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  • Carbon nano tube cement based composite sensor testing system

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Embodiment Construction

[0015] Embodiments of the present invention will be described in detail with reference to the accompanying drawings.

[0016] Embed a 30mm×30mm×120mm carbon nanotube cement-based composite sensor and a temperature and humidity compensation sensor at the node to be tested. Establish data acquisition processing and communication subsystems, perform A / D conversion, digital filtering and denoising operations on received digital signals and data, and transmit data wirelessly through the support of power supply subsystems and RF power amplifiers. The base station node receives and processes the data information, and the connected gateway device converts the wireless sensor network protocol into an IP network protocol, and sends the data to the monitoring center through the Internet to establish a wireless sensor network-based engineering structure health monitoring system.

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Abstract

Disclosed is a carbon nano tube cement based composite sensor testing system. A strain sensor unit is made of a carbon nano tube cement based composite sensor, the strain sensor unit is embedded into a to-be-tested node to monitor civil engineering project structural load and effects in real time and output in forms of electric signals. A temperature humidity compensation sensor unit is place at the node to monitor area temperature humidity indexes. The carbon nano tube cement based composite sensor and the temperature humidity compensation sensor form a sensor subsystem. A data acquisition processing and communication system is configured to transmit data wirelessly by the support of a power supply unit and a radio frequency power amplifier. A base station node receives and processes data information, a gateway device connected with the base station node is used for converting wireless sensor network protocols into IP (internet protocol) so as to form a base station together. Data is transmitted to a monitoring center through the Internet to build the healthy engineering structure monitoring system based on a wireless sensor network.

Description

technical field [0001] The invention relates to an engineering structure sensor testing system, which belongs to the field of engineering structure health monitoring. Background technique [0002] Structural health monitoring has become a research hotspot in the field of engineering at home and abroad. In bridges, tunnels, highways, dams and many other large-scale civil engineering construction fields and military applications, it has always been our research goal to realize multi-parameter, multi-functional, distributed real-time, sensor detection networks. Large-scale civil engineering buildings have been subjected to environmental loads, material corrosion and aging and other catastrophic coupling factors for a long time, which will inevitably cause structural damage and resistance attenuation, resulting in a decline in resistance to natural disasters and sudden catastrophic accidents. In order to reduce the impact on the service life and service capacity of large-scale ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H04W84/18G08C17/02
Inventor 李云峰徐丽
Owner SHANDONG UNIV OF SCI & TECH
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