CN113542329A - High altitude plant degree of stability intellectual detection system based on thing networking - Google Patents

Abstract

The invention relates to the technical field of security and protection early warning systems, and particularly discloses an intelligent detection system for the stability of high-altitude equipment based on the Internet of things, which comprises an Internet of things sensor and an early warning management system, wherein the Internet of things sensor is connected with a CPU operation module, the CPU operation module is connected with a data center library through the Internet of things, the Internet of things sensor is used for measuring the magnetic field strength near a permanent magnet arranged on a monitored object and converting the magnetic field strength into an electric signal, the CPU operation module is used for operating the electric signal converted by the Internet of things sensor to calculate the position of the monitored object, the data center library is used for comparing the operation result of the CPU operation module with stored data, the data center library compares the detected signal through the arranged Internet of things sensor after the CPU operation module operates the detected signal, the comparison result sends an alarm through an alarm module, and a signal acquisition and forwarding device passes through a built-in Internet of things module, the cloud is connected, and signals can be sent to a PC (personal computer) end or a mobile end of monitoring personnel in real time.

Description

High altitude plant degree of stability intellectual detection system based on thing networking

Technical Field

The invention relates to the technical field of security early warning systems, in particular to an intelligent detection system for the stability of high-altitude equipment based on the Internet of things.

Background

The hidden danger of people injury caused by falling objects is a great problem which puzzles city management of all countries in the world, in recent years, with the acceleration of urbanization process of China, cases of casualties caused by falling objects in cities all over the country frequently appear, great threat is brought to life and property safety of people, and high attention of governments at all levels is aroused. As super-large cities with high population gathering and highly developed industrial and commercial activities, tall buildings stand, merchants and offices are densely distributed, light boxes, advertising boards, shop signboards, air-conditioning outdoor machines and tall building decorations, various types of trees possibly cause falling building attachments, countless times, and a lot of high-altitude equipment can cause equipment to fall due to loose caused by unstable installation and long installation time or external force impact.

Disclosure of Invention

The invention aims to provide an intelligent detection system for the stability of high-altitude equipment based on the Internet of things, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: an intelligent detection system for the stability of high-altitude equipment based on the Internet of things comprises an Internet of things sensor and an early warning management system, wherein the Internet of things sensor is connected with a CPU operation module, the CPU operation module is connected with a data center library through the Internet of things, the Internet of things sensor is used for measuring the magnetic field intensity near a permanent magnet arranged on a monitored object and converting the magnetic field intensity into an electric signal, the CPU operation module is used for operating the electric signal converted by the Internet of things sensor and calculating the position of the monitored object, the data center library is used for comparing the operation result of the CPU operation module with stored data, the data center library is connected with the early warning management system through an alarm module, the alarm module is used for sending an alarm signal, the early warning management system comprises a signal acquisition and forwarding device, the signal acquisition and forwarding device is used for acquiring and forwarding the sent alarm signal, and the signal acquisition and forwarding device is connected with a cloud end through a built-in Internet of things module, the data center library is connected with the cloud end; the cloud end is connected with the personnel management module, the personnel management module is used for communicating people with people, the personnel management module is connected with the data analysis platform, the data analysis platform analyzes data, and the data analysis platform is connected with the PC end and the mobile end.

Preferably, the signal collecting and forwarding device comprises a signal collecting module, a signal converting module and a signal forwarding module, the signal collecting module is used for collecting the comparison result of the data center library and the alarm signal sent by the alarm module, the signal converting module is used for converting the collected signal, and the signal forwarding module is used for forwarding the converted signal to the cloud.

Preferably, the personnel management module comprises management of constructors, detectors and supervisors.

Preferably, the sensor of the internet of things and the signal acquisition and forwarding device are both provided with a plurality of sets, and the model of the sensor of the internet of things is JGK-1100.

A use method of an intelligent detection system for stability of high-altitude equipment based on the Internet of things comprises the following steps:

s1, installing a permanent magnet on the monitored object, and measuring the magnetic field intensity near the permanent magnet by the sensor of the Internet of things and converting the magnetic field intensity into an electric signal;

s2, the CPU operation module operates the electric signals sent by the sensor of the Internet of things, the position of the object is measured and calculated by matching with a specific optimization algorithm, and the measured and calculated result is sent to the data center library through the Internet of things;

s3, comparing the measured and calculated results with the data center library, sending a warning signal by the alarm module when the comparison result exceeds a set threshold value, connecting the internet of things module arranged in the signal acquisition and forwarding device with a cloud terminal, sending a signal to a PC (personal computer) end or a mobile end of a monitoring person in real time, and recording the signal at the cloud terminal;

and S4, when the comparison result does not exceed the set threshold, the data center library transmits the comparison result to the cloud for recording.

Compared with the prior art, the invention has the beneficial effects that: through the thing networking sensor of installation, the CPU operation module is operated the back to the signal that detects, and the data center storehouse is compared, and the comparison result sends out the police dispatch newspaper through alarm module, and signal acquisition and forwarding device passes through built-in thing networking module, connects the high in the clouds, can be in real time to the PC end of control personnel or remove and serve the signals to at high in the clouds record, the personnel of receiving the signal are hurled to the scene rapidly and are dealt with, in time eliminate the hidden danger, accomplish to prevent suffering from in the bud.

Drawings

FIG. 1 is a block diagram of the overall structure of the present invention;

fig. 2 is a block diagram of the early warning management system according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-2, the present invention provides a technical solution: an intelligent detection system for the stability of high-altitude equipment based on the Internet of things comprises an Internet of things sensor and an early warning management system, wherein the Internet of things sensor is connected with a CPU operation module, the CPU operation module is connected with a data center library through the Internet of things, the Internet of things sensor is used for measuring the magnetic field intensity near a permanent magnet arranged on a monitored object and converting the magnetic field intensity into an electric signal, the CPU operation module is used for operating the electric signal converted by the Internet of things sensor and calculating the position of the monitored object, the data center library is used for comparing the operation result of the CPU operation module with stored data, the data center library is connected with the early warning management system through an alarm module, the alarm module is used for sending an alarm signal, the early warning management system comprises a signal acquisition and forwarding device, the signal acquisition and forwarding device is used for acquiring and forwarding the sent alarm signal, and the signal acquisition and forwarding device is connected with a cloud end through a built-in Internet of things module, the data center library is connected with the cloud end; the cloud end is connected with the personnel management module, the personnel management module is used for communicating people with people, the personnel management module is connected with the data analysis platform, the data analysis platform analyzes data, and the data analysis platform is connected with the PC end and the mobile end.

The signal acquisition and forwarding device comprises a signal acquisition module, a signal conversion module and a signal forwarding module, wherein the signal acquisition module is used for acquiring a comparison result of the data center library and an alarm signal sent by the alarm module, the signal conversion module is used for converting the acquired signal, and the signal forwarding module is used for forwarding the converted signal to the cloud.

The personnel management module comprises management of constructors, detectors and supervisors.

The sensor of the internet of things and the signal acquisition and forwarding device are both provided with a plurality of sets, and the model of the sensor of the internet of things is JGK-1100.

A use method of an intelligent detection system for stability of high-altitude equipment based on the Internet of things comprises the following steps:

s1, installing a permanent magnet on the monitored object, and measuring the magnetic field intensity near the permanent magnet by the sensor of the Internet of things and converting the magnetic field intensity into an electric signal;

s2, the CPU operation module operates the electric signals sent by the sensor of the Internet of things, the position of the object is measured and calculated by matching with a specific optimization algorithm, and the measured and calculated result is sent to the data center library through the Internet of things;

s3, comparing the measured and calculated results with the data center library, sending a warning signal by the alarm module when the comparison result exceeds a set threshold value, connecting the internet of things module arranged in the signal acquisition and forwarding device with a cloud terminal, sending a signal to a PC (personal computer) end or a mobile end of a monitoring person in real time, and recording the signal at the cloud terminal;

and S4, when the comparison result does not exceed the set threshold, the data center library transmits the comparison result to the cloud for recording.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a high altitude construction degree of stability intellectual detection system based on thing networking, includes thing networking sensor and early warning management system, its characterized in that: the system comprises an Internet of things sensor, a data center library, a Central Processing Unit (CPU) operation module, a Central Processing Unit (CPU) and a signal acquisition and forwarding device, wherein the Internet of things sensor is connected with the CPU operation module, the CPU operation module is connected with the data center library through the Internet of things, the Internet of things sensor is used for measuring the magnetic field intensity near a permanent magnet arranged on a monitored object and converting the magnetic field intensity into an electric signal, the CPU operation module is used for calculating the electric signal converted by the Internet of things sensor and calculating the position of the monitored object, the data center library is used for comparing the calculation result of the CPU operation module with stored data, the data center library is connected with an early warning management system through an alarm module, the alarm module is used for sending an alarm signal, the early warning management system comprises a signal acquisition and forwarding device, the signal acquisition and forwarding device is used for acquiring and forwarding the sent alarm signal, the signal acquisition and forwarding device is connected with a cloud end through the built-in Internet of things module, and the data center library is connected with the cloud end; the cloud end is connected with the personnel management module, the personnel management module is used for communicating people with people, the personnel management module is connected with the data analysis platform, the data analysis platform analyzes data, and the data analysis platform is connected with the PC end and the mobile end.

2. The high-altitude equipment stability intelligent detection system based on the Internet of things as claimed in claim 1, characterized in that: the signal acquisition and forwarding device comprises a signal acquisition module, a signal conversion module and a signal forwarding module, wherein the signal acquisition module is used for acquiring a comparison result of the data center library and an alarm signal sent by the alarm module, the signal conversion module is used for converting the acquired signal, and the signal forwarding module is used for forwarding the converted signal to the cloud.

3. The high-altitude equipment stability intelligent detection system based on the Internet of things as claimed in claim 1, characterized in that: the personnel management module comprises management of constructors, detectors and supervisors.

4. The high-altitude equipment stability intelligent detection system based on the Internet of things as claimed in claim 1, characterized in that: the sensor of the internet of things and the signal acquisition and forwarding device are both provided with a plurality of sets, and the model of the sensor of the internet of things is JGK-1100.

5. The use method of the high-altitude equipment stability intelligent detection system based on the Internet of things as claimed in any one of claims 1 to 4, wherein the use method comprises the following steps: the method comprises the following steps:

s1, installing a permanent magnet on the monitored object, and measuring the magnetic field intensity near the permanent magnet by the sensor of the Internet of things and converting the magnetic field intensity into an electric signal;

s2, the CPU operation module operates the electric signals sent by the sensor of the Internet of things, the position of the object is measured and calculated by matching with a specific optimization algorithm, and the measured and calculated result is sent to the data center library through the Internet of things;

s3, comparing the measured and calculated results with the data center library, sending a warning signal by the alarm module when the comparison result exceeds a set threshold value, connecting the internet of things module arranged in the signal acquisition and forwarding device with a cloud terminal, sending a signal to a PC (personal computer) end or a mobile end of a monitoring person in real time, and recording the signal at the cloud terminal;

and S4, when the comparison result does not exceed the set threshold, the data center library transmits the comparison result to the cloud for recording.

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