Comprehensive monitoring system and method of suspension bridge cable safety

A comprehensive monitoring and suspension bridge technology, applied in the general control system, control/regulation system, comprehensive factory control, etc., can solve the problems of high cost, stuck and slipped, and high work intensity of the cable climbing robot, so as to improve work safety and work efficiency, reduce maintenance costs, and reduce work intensity

Active Publication Date: 2015-07-15
成都申开科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Cable climbing robots are costly, unstable in work, and prone to jamming and slipping; while manual inspection requires high work intensity and poor safety, and the detection of these two methods has the disadvantages of low efficiency and non-targeting

Method used

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  • Comprehensive monitoring system and method of suspension bridge cable safety
  • Comprehensive monitoring system and method of suspension bridge cable safety
  • Comprehensive monitoring system and method of suspension bridge cable safety

Examples

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Comparison scheme
Effect test

specific Embodiment approach

[0047] figure 1 and figure 2 It is shown that a specific embodiment of the present invention is: a comprehensive monitoring system for cable safety of a suspension bridge, including a sensor detection unit 1, the sensor detection unit 1 is composed of a plurality of sensor detection subunits 1.0 located at different positions of the cable, Its structural feature is that the specific composition of each sensor detection subunit 1.0 is:

[0048] The sensor 1.1 is installed on the cable and is used to detect the safety state parameters of the cable at the position;

[0049] The microcontroller one 1.2 and the radio frequency tag 1.3 electrically connected to the sensor 1.1 are used to control and store the data information detected by the sensor 1.1, and transmit the data information to the radio frequency reading and writing unit 2 in the form of radio frequency;

[0050] The radio frequency reading and writing unit 2 is composed of a plurality of radio frequency reading and ...

Embodiment 2

[0063] image 3 and Figure 4 As shown, another specific embodiment of the present invention is: a comprehensive monitoring system for cable safety of a suspension bridge, including a sensor detection unit 1, and the sensor detection unit 1 is composed of a plurality of sensor detection subunits 1.0 located at different positions of the cable , its structural feature is that the specific composition of each sensor detection subunit 1.0 is:

[0064] The sensor 1.1 is installed on the cable and is used to detect the safety state parameters of the cable at the position;

[0065] The microcontroller one 1.2 and the radio frequency tag 1.3 electrically connected to the sensor 1.1 are used to control and store the data information detected by the sensor 1.1, and transmit the data information to the radio frequency reading and writing unit 2 in the form of radio frequency;

[0066] The radio frequency reading and writing unit 2 is composed of a plurality of radio frequency reading ...

Embodiment 3

[0078] The system structure and monitoring method of this example are basically the same as those of the first example, except that the microcontroller-1.2 of the sensor detection subunit 1.0 in this example is powered by a combination of solar cells and dry batteries.

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Abstract

The invention discloses a remote monitoring system and method of suspension bridge cable state. The monitoring system comprises a sensor detection unit, wherein the sensor detection unit consists of a plurality of sensor detection subunits; each sensor detection subunit consists of a sensor, a microcontroller I and a radio frequency tag, detects a parameter of cable safety state, and transmits the parameter to a radio frequency read/write unit in a radio frequency manner; the radio frequency read/write unit consists of a plurality of radio frequency read/write subunits; each radio frequency read/write subunit consists of a radio frequency read/write device and a microcontroller II, reads data information of the radio frequency tag and transfers the data information to a wireless transmitting unit; the wireless transmitting unit comprises a wireless transmitter and a microcontroller III, receives the data information transferred by the radio frequency read/write device and transmits the data information to a remote control terminal; the remote control terminal receives and analyzes the data information transmitted by the wireless transmitter of the wireless transmitting unit and performs comprehensive assessment on the safety state of each position of the cable. According to the invention, the system can remotely monitor the safety state of the cable of a suspension bridge and is high in precision and low in cost.

Description

technical field [0001] The invention relates to a comprehensive monitoring system and a monitoring method for cable safety of a suspension bridge, belonging to the field of civil engineering. Background technique [0002] The suspension bridge is a flexible suspension system composed of main cables, stiffening beams, main towers, saddles, anchorages, slings and other components. The main cable is the most important load-bearing member in the structural system of the suspension bridge. It is suspended on the main tower through the tower top cable saddle and anchored in the anchors at both ends. The sling is a force-transmitting member that transmits the self-weight and external load of the stiffening beam to the main cable, and is the link connecting the stiffening beam and the main cable. Both are very important components in the structural system of the suspension bridge. However, the main cables and slings will be corroded during use, which will affect their strength; an...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G05B19/418
CPCY02P90/02G05B19/04G05B2219/25257
Inventor 永远韩奎吴桐黄小霞
Owner 成都申开科技有限公司
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