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An Intelligent Civil Engineering Monitoring Device Based on Cloud Computing

A civil engineering and monitoring device technology, applied in circuit devices, battery circuit devices, transportation and packaging, etc., can solve the problems of unstable equipment erection, difficulty in entering equipment, safety risks, etc. Execution and manipulation of intelligent effects

Active Publication Date: 2022-04-08
郭佳泷
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] Therefore, it is determined that when the bridge is built, the height of the bridge bottom from the ground must not be too low. Due to the height problem, the cracks and other bridges that appear at the bottom of the bridge cannot be directly observed by human eyes, and must be monitored with the help of equipment. Due to the constraints of the site environment, it is difficult for the equipment to enter the site, or the erection of the equipment is not stable enough. There will be safety risks in the monitoring of the bridge bottom if it is placed under the bridge. , carry the staff by hoisting the working frame, and lower it to the bottom of the bridge for monitoring, but this method still has limitations due to the weather conditions on site, such as strong winds, and the monitoring location, such as the middle position of the bridge bottom

Method used

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  • An Intelligent Civil Engineering Monitoring Device Based on Cloud Computing
  • An Intelligent Civil Engineering Monitoring Device Based on Cloud Computing
  • An Intelligent Civil Engineering Monitoring Device Based on Cloud Computing

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0038] Example 1, such as figure 1 , 4 As shown in -7, when laying the installation frame 1 and the linear guide rail, it is divided into multiple sections according to the length of the bridge, and the number of the first linear guide rail 2 is matched with the number of segments to form a plurality of monitoring groups, and Each monitoring group needs to be equipped with a solar panel 12 and a rechargeable battery 10. Similarly, the second linear guide rail 4 can be set according to the width of the bridge. The same direction of travel of the battery pack 14, the charging port on the battery pack 14 needs to correspond to the position of the charging head 11, so that the solar battery 12 cooperates with the rechargeable battery 10 to charge the monitoring ball and improve the battery life. .

Embodiment 2

[0039] Example 2, such as Figure 2-3 As shown, when monitoring, the corresponding sphere is selected according to the function. When the lower sphere 9 is selected to observe, the camera cooperates with the ultrasonic detector 28 to carry out the joint action of the probe. When the probe is working, the lower sphere 9 as a whole It can be rotated under the action of the fourth motor 38, combined with the action of the linear guide rail, at this time, the position of the probe is roughly adjusted. Therefore, the meshing effect between the gear 34 and the tooth column 30 can be further fine-tuned. When performing air and liquid replenishment, the reagent bottle 18 is exposed by driving the shutter to move, and the liquid replenishment port on the reagent bottle 18 is used for liquid replenishment. The filling head 22 fills the inside of the high-pressure gas tank 21 with high-pressure gas.

[0040] Working principle: Install the mounting frame 1 to the bottom of the bridge, co...

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Abstract

The invention discloses an intelligent civil engineering monitoring device based on cloud computing. The invention includes a mounting frame and a control terminal. The bottom end of the inner side wall of the mounting frame is equipped with a first linear guide rail, and the first linear The sliding end of the line guide rail is installed with a connecting frame, and the inner side wall of the connecting frame is installed with a second linear guide rail, and the sliding end of the second linear guide rail is installed with a first connecting rod, and one end of the first connecting rod is passed through a bolt Guard plate installed. The present invention can independently realize the regular monitoring of the bottom of the bridge, and through the image combined with the detection results of the ultrasonic detector, the problems existing in the bridge body can be found in time, so that the technicians can make a treatment plan in time, and through the optimized monitoring method, Compared with the existing technology, the implementation of the monitoring work is not easily affected by the on-site environment, and the constraints are small. Through the highly integrated assembly equipment inside the monitoring ball, the execution and operation of the monitoring work are also more intelligent.

Description

technical field [0001] The invention relates to the technical field of civil engineering, in particular to an intelligent civil engineering monitoring device based on cloud computing. Background technique [0002] Civil engineering is a general term for the science and technology of building various land engineering facilities. It not only refers to the applied materials, equipment and technical activities such as survey, design, construction, maintenance and repair, but also refers to the object of engineering construction. That is, various engineering facilities built on the ground or underground, on land, directly or indirectly serving human life, production, military affairs, and scientific research, such as houses, roads, railways, pipelines, tunnels, bridges, canals, dams, ports, power stations, Airports, offshore platforms, water supply and drainage, and protection projects, etc. [0003] Among them, bridges refer to structures erected on rivers, lakes, and seas to ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): F16M11/04F16M11/12F16M11/18F16M13/02G01N29/04H02J7/35H02S10/12E01D22/00
CPCF16M11/045F16M11/046F16M11/121F16M11/18F16M13/02G01N29/04H02J7/35H02S10/12E01D22/00G01N2291/0289Y02E10/50
Inventor 郭佳泷汤康生许浩锋
Owner 郭佳泷
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