Wall-climbing type bridgewind pressure alarming robot and control method

A robot and alarm technology, applied in the field of robots, can solve the problems of inaccurate wind pressure monitoring data, unadjustable height, unfavorable windproof measures, etc., and achieve the effect of improving the performance of wind pressure monitoring and alarming and ensuring safety.

Active Publication Date: 2019-07-30
IANGSU COLLEGE OF ENG & TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] In order to ensure that the bridge can be put into use stably, it is necessary to monitor the wind pressure on the bridge in real time to remind the pedestrians and staff on the bridge of accurate wind pressure data, which will help the pedestrians and staff on the bridge to do better. Good wind protection measures can effectively guarantee the safety of pedestrians and staff on the bridge so that the bridge can be put into use stably. However, in the prior art, a simple wind pressure monitoring device is generally used to monitor the wind pressure on the bridge. The pressure monitoring device is generally installed on the bridge surface, which is easily scratched by passing vehicles on the bridge, and is easily damaged, and its height is not adjustable, so its detection part is easily blocked by obstacles, which in turn causes its wind The inaccurate data of wind pressure monitoring leads to poor wind pressure monitoring and alarm performance, which is not conducive to timely wind protection measures for pedestrians and staff on the bridge, and poses a greater hidden danger to the safety of pedestrians and staff on the bridge. , propose a wall-climbing bridge wind pressure alarm robot and its control method

Method used

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  • Wall-climbing type bridgewind pressure alarming robot and control method
  • Wall-climbing type bridgewind pressure alarming robot and control method
  • Wall-climbing type bridgewind pressure alarming robot and control method

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0055] A wall-climbing bridge wind pressure alarm robot, such as Figure 1-2 As shown, it includes a climbing wall walkway 1, a control part 2, a crawling unit 3, a lifting unit 4, a wind pressure detection unit 5 and an alarm 34, and the control part 2 is connected to the climbing wall walkway 1 through the crawling unit 3. , the wind pressure detection unit 5 is fixedly installed on the upper part of the control part 2 through the lifting unit 4 , and the alarm 34 is fixedly installed inside the control part 2 .

[0056] By adopting the above-mentioned technical scheme, the wall-climbing walkway 1 is used as the basis for the robot to climb the wall, the control part 2 is used to control the operation of the robot, the crawling unit 3 is used to crawl along the wall-climbing walkway 1 to drive the robot to move up and down, and the lifting unit 4 is used to further enhance the height where the wind pressure detection unit 5 is located, and the alarm 34 is used to send an ala...

Embodiment 2

[0081] The difference from Example 1 is that a protective layer is also provided on the surfaces of the first motor 20 and the second motor 26, and the protective layer is prepared by the following method:

[0082] Take the following raw materials and weigh them by weight: 20 parts of epoxy resin, 8 parts of calcium carbonate powder, 14 parts of acrylic emulsion, 9 parts of titanium dioxide powder, 8 parts of mica powder, 10 parts of polyurethane, 10 parts of antimony trioxide particles, 3 parts of paraffin wax 2 parts, 12 parts of alcohol ester, 2 parts of triethanolamine, 2 parts of emulsified silicone oil and 30 parts of ethanol;

[0083] S1. Add the weighed acrylic emulsion, paraffin wax, alcohol ester dodeca, triethanolamine, emulsified silicone oil and ethanol into the mixer and stir for 20min at a stirring speed of 600r / min to prepare a mixed solution;

[0084] S2, adding epoxy resin, calcium carbonate powder, titanium dioxide powder, mica powder, polyurethane and antim...

Embodiment 3

[0090] The difference with embodiment 2 is the preparation of protective layer, and its specific preparation method is as follows:

[0091] Take the following raw materials and weigh them by weight: 23 parts of epoxy resin, 10 parts of calcium carbonate powder, 16 parts of acrylic emulsion, 11 parts of titanium dioxide powder, 9 parts of mica powder, 13 parts of polyurethane, 13 parts of antimony trioxide particles, 4 parts of paraffin wax 3 parts, 12 parts of alcohol ester, 3 parts of triethanolamine, 3 parts of emulsified silicone oil and 40 parts of ethanol;

[0092] S1. Add the weighed acrylic emulsion, paraffin wax, alcohol ester dodeca, triethanolamine, emulsified silicone oil and ethanol into the mixer and stir for 25min at a stirring speed of 700r / min to prepare a mixed solution;

[0093] S2, adding epoxy resin, calcium carbonate powder, titanium dioxide powder, mica powder, polyurethane and antimony trioxide particles into the pulverizer and pulverizing until the part...

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Abstract

The invention discloses a wall-climbing type bridge wind pressure alarming robot and a control method. The wall-climbing type bridge wind pressure alarming robot includes a wall-climbing aisle, a control part, a crawling unit, a lifting unit, a wind pressure detection unit, and an alertor. The control part is connected with the wall-climbing aisle in a transmitting mode through the crawling unit.The wind pressure detection unit is fixedly installed on the upper part of the control part through the lifting unit. The alertor is fixedly installed on the inner part of the control part. Accordingto the wall-climbing type bridge wind pressure alarming robot and the control method, the robot provided can prevent the upper part from being scraped by passing vehicles on a bridge, and effectivelyprevent obstacles on the bridge from blocking the wind pressure detection unit to ensure that the robot can accurately monitor wind pressure, so that more accurate wind pressure data can be provided for pedestrians and workers on the bridge, which is helpful for the pedestrians and the workers on the bridge to take wind prevention measures, and the safety of the pedestrians and the workers on thebridge is effectively guaranteed so that the bridge can be put into use stably.

Description

technical field [0001] The invention relates to the technical field of robots, in particular to a wall-climbing bridge wind pressure alarm robot. Background technique [0002] Bridges generally refer to structures erected on rivers, lakes and seas to allow vehicles and pedestrians to pass smoothly. In order to adapt to the modern high-speed development of the transportation industry, bridges are also extended to buildings that cross mountain streams, poor geology or meet other transportation needs to make traffic more convenient. A bridge is generally composed of a superstructure, a substructure, a support and ancillary structures. The superstructure is also called a bridge span structure, which is the main structure for crossing obstacles; the substructure includes abutments, piers and foundations; Or the force transmission device installed at the supporting place of the bridge abutment; the auxiliary structures refer to the bridge head board, conical slope protection, ban...

Claims

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Application Information

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IPC IPC(8): E01D19/10G01L19/12
CPCE01D19/106G01L19/12
Inventor 王斯海高路恒苏的妮
Owner IANGSU COLLEGE OF ENG & TECH
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