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Intelligent building protection method based on unmanned aerial vehicle and information sharing, and system thereof

A technology of intelligent building and information sharing, which is applied in the fields of architecture, building structure, general control system, etc., and can solve the problems of architectural style limitation and consumption of building space resources.

Inactive Publication Date: 2018-12-25
苏州亮磊知识产权运营有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The disadvantage of this kind of structural improvement is that it consumes a lot of architectural space resources and limits the design of architectural features.

Method used

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  • Intelligent building protection method based on unmanned aerial vehicle and information sharing, and system thereof
  • Intelligent building protection method based on unmanned aerial vehicle and information sharing, and system thereof
  • Intelligent building protection method based on unmanned aerial vehicle and information sharing, and system thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0110] refer to figure 1 , Figure 10-18 shown.

[0111] Specifically, this embodiment provides a smart building protection method based on drones and information sharing, the method includes the following steps:

[0112] S1. The wireless device 60 receives the start-up protection command sent by the external equipment of the management department of the multi-storey building 1 and returns it to the control center 6, and the control center 6 controls the wind force installed on the outer surface of the multi-storey building 1 after receiving it. The detector 54 starts to acquire wind force information around the multi-storey building 1 in real time and controls the first camera 50 arranged on the outer surface of the multi-storey building 1 to capture the first image in real time;

[0113] S2. The control center 6 analyzes in real time whether the current wind force level exceeds the preset wind force level according to the wind force information obtained by the wind force d...

Embodiment 2

[0127] refer to figure 2 , Figure 10-14 , Figure 19 shown.

[0128] Specifically, this embodiment is basically the same as Embodiment 1, except that in this embodiment, in S5, the method further includes the following steps:

[0129] S50. The control center 6 controls the lighting drone 14 installed at the inner position of the drone warehouse 10 on the top of the multi-storey building 1 to start and controls the third camera 52 set at the side of the activated lighting drone 14 in real time. capture the third image;

[0130] S51. The control center 6 controls the activated lighting drone 14 to release the connection relationship with the connection mechanism 16 arranged at the top position inside the drone warehouse 10, and controls the lighting drone 14 to release the connection relationship with the connection mechanism 16 according to The third image flies away from the UAV warehouse 10;

[0131] S52. The control center 6 controls the lighting drone 14 leaving the ...

Embodiment 3

[0135] refer to Figure 3-4 , Figure 10-18 , Figure 21-23 shown.

[0136] Specifically, this embodiment is basically the same as Embodiment 1, except that in this embodiment, in S5, the method further includes the following steps:

[0137] S54, the control center 6 controls the second fixed motor 43 arranged at the inner position of the front end of the fixed telescopic pillar 41 that is fixed in contact with the fixed groove to drive and connect the fixed telescopic block 44 to protrude out and fix in conflict with the second fixed groove 45;

[0138] S55. The control center 6 controls the protective fixing motor 31 arranged in the inner position of the protective channel 30 above the inner wall of the window of the multi-storey building 1 to drive the connected protective fixing pillar 32 to protrude from the inner wall of the window of the multi-storey building 1. The protection fixing groove 33 resists and fixes.

[0139] Specifically, after the protective UAV 13 and...

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Abstract

The invention provides an intelligent building protection method based on a unmanned aerial vehicle and information sharing, and a system thereof. The intelligent building protection method based on aunmanned aerial vehicle and information sharing comprises the following steps that: the control center receives a protection start command and controls the wind power detector to acquire wind power information and controls the first camera to capture a first image ; the control center analyzes whether the current wind power level exceeds a preset wind power level, the control center controls theprotection unmanned aerial vehicle to start and controls the second camera to capture a second image if the current wind power level exceeds the preset wind power level; the control center controls the protection unmanned aerial vehicle to release the connection with the connection mechanism and controls the protection unmanned aerial vehicle to fly away from the unmanned aerial vehicles warehouse; the control center controls the protection unmanned aerial vehicle to travel to the protection area and controls a fixed telescopic pillar driven by and connected with a first fixing motor of the protection unmanned aerial vehicle to extend out to resist and fix with a first fixing groove; the control center controls a first splicing plate driven by and connected with a first splicing motor of the protection unmanned aerial vehicle to extend out to resist and fix with a first splicing groove and controls a first exhaust hole and a second exhaust hole to be opened; and the control center controls the exhaust passage to be opened.

Description

technical field [0001] The invention relates to the field of building protection, in particular to an intelligent building protection method and system based on drones and information sharing. Background technique [0002] High-rise buildings have been very popular, and for high-rise buildings, their wind resistance is an important technical requirement. In order to improve the wind resistance, at present, improvements are mainly made in the structural design of the building, such as forming a wind tunnel on the building , Construction of solid ground support and other measures. The disadvantage of this kind of structural improvement is that it consumes a lot of architectural space resources and greatly restricts the design of architectural features. [0003] However, how to combine drones and information sharing with multi-storey buildings, after detecting that the wind level around the multi-storey building exceeds the preset wind level, control the protective drone to fl...

Claims

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Application Information

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IPC IPC(8): G05B15/02G06Q10/08E04B1/92
CPCE04B1/92G05B15/02G06Q10/083
Inventor 汤庆佳
Owner 苏州亮磊知识产权运营有限公司
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