CN115150590A - Wind-powered electricity generation field intelligent monitoring device - Google Patents

Abstract

The invention discloses an intelligent monitoring device for a wind power plant, and relates to the technical field of monitoring equipment; the intelligent camera comprises a front-end intelligent camera, a storage analysis unit and a platform server, wherein the front-end intelligent camera comprises a first camera for detecting a human face, a second camera for detecting thermal imaging, a third camera for detecting smoking and a fourth camera for detecting a safety helmet and a safety belt, the first camera is connected with and communicates with the storage analysis unit, the second camera is connected with and communicates with the storage analysis unit, the third camera is connected with and communicates with the storage analysis unit, the fourth camera is connected with and communicates with the storage analysis unit, and the storage analysis unit is connected with and communicates with the platform server; the wind power plant monitoring effect is better through the first camera, the second camera, the third camera, the fourth camera, the storage analysis unit, the platform server and the like.

Description

Wind-powered electricity generation field intelligent monitoring device

Technical Field

The invention relates to the technical field of monitoring equipment, in particular to an intelligent monitoring device for a wind power plant.

Background

Power enterprises are not only purely productive enterprises. But also has the characteristics of simultaneous production, supply and marketing and simultaneous completion of the business and service industries; is a combined industrial and commercial system integrating production, distribution and sale. The safety of the power enterprises is not only the basis of exerting and improving the economic benefit, but also more importantly, the safety of the power enterprises is related to the economic benefit and social stability of the whole society. Therefore, safety production is a constant theme for power enterprises.

Wind power plants governed by the Huaneng Guangxi clean energy limited company include Fuchuan wind power plants, qixinling wind power plants, town Longshan wind power plants, liangzilian wind power plants, mashan Zhuyuan wind power plants, cenxi Qingshan lawn wind power plants and Pubei wind power plants, and the total number of the fans is more than 200.

At present, the existing video monitoring technical scheme is that a situation monitoring camera is installed at a key position of a whole fan, and the situation monitoring camera is transmitted to a monitor through optical fibers to be stored uniformly, so that live preview and video retrieval of the fan are realized. The whole solution needs personnel to check the live condition of each monitoring point position in real time, and the reason is analyzed by looking up a large amount of videos afterwards for the occurred accidents through checking and judging factors possibly existing and influencing production artificially.

The authorization notice number is CN 209659469U, the name is a mobile face recognition camera. Comprises a body and a camera assembly arranged on the top of the body; the camera component comprises a mounting seat, a supporting seat and a camera; a first driving motor is arranged in the supporting seat, and a second driving motor is arranged in the supporting lug part; the bottom of the machine body is provided with a travelling wheel; a display screen is arranged on the front side wall surface of the machine body; the main control module, the face recognition module, the image detection module, the storage module and the wireless communication module are integrated on the body and are respectively and electrically connected with the main control module. The whole camera can be moved to a place needing to be used at any time for use through the universal traveling wheels. The image that the camera was shot can show on the display screen, passes through wireless communication module simultaneously to carry out long-range real time monitoring. Through the cooperation of the face recognition module, the image detection module, the first driving motor and the second driving motor, the effect of tracking and shooting is achieved, and the use is convenient and flexible.

The authorization notice number is CN 211509165U, and the name is a vehicle-mounted monitoring camera. Including infrared light regulating unit, image acquisition output unit, ambient brightness detecting element, image analysis unit and main control unit, can be according to the luminance and the adverse light condition of current environment, automatically regulated light filling intensity, when not needing the light filling, can close infrared light filling lamp, avoid driver eye fatigue, when ambient condition is not good, reinforcing light filling intensity to obtain good image effect. The image analysis unit is connected with the main control unit and is used for identifying and analyzing the image, judging whether the brightness of the image meets the requirement, and if so, judging whether the driver has irregular driving behaviors such as smoking, drinking, calling, fatigue driving and the like; and meanwhile, the brightness information of the image is output to the main control unit, and the infrared light adjusting unit is adjusted by the main control unit according to the image brightness data and the environment brightness data output by the image analyzing unit.

The name of the authorized notice number is CN 213840367U, and the name is an adjustable camera for detecting the safe wearing of a safety helmet or a mask. Including fixed plate and mounting hole, the outside edge of fixed plate is seted up flutedly, and the inside of recess is provided with the rotating turret, and wherein, the slide has been seted up to one side department between recess and the rotating turret, and the one end that the rotating turret inboard is close to the slide is provided with the arch, and threaded hole runs through with bellied inside to the rotating turret, and the internal connection of screw hole has the knob screw rod, and the middle part surface department at the fixed plate is seted up to the mounting hole. This safety helmet or gauze mask are dressed safely and are detected with adjustable camera, unscrew the knob screw rod of rotating turret one side to the runing rest drives the rotating turret and rotates in the recess, confirms behind the skew angle of camera body, screws up the knob screw rod again, makes the knob screw rod lock the skew angle of camera body, thereby conveniently adjusts the deflection angle of this camera.

Combining the above three patent documents and the prior art solutions, the inventors have analyzed and found that the following technical problems exist in the prior art solutions.

The existing video monitoring system can only provide real-time checking of the afterwards recorded video for retrieval, so that personnel are required to check the live condition within 24 hours, personnel and time are wasted, the live condition which can be simultaneously previewed by the display system is limited, all the live conditions can not be simultaneously previewed, the specific point positions need to be checked by polling or clicking, the judgment of all factors influencing the safety production depends on people, different people have different judgment results, the early warning which can not be fast caused by the possible occurrence of safety accidents can not be realized, and the safety accidents can not be effectively prevented.

Problems with the prior art and considerations:

how to solve the relatively poor technical problem of wind-powered electricity generation field monitoring effect.

Disclosure of Invention

The invention aims to solve the technical problem of providing an intelligent monitoring device for a wind power plant, and solves the technical problem of poor monitoring effect of the wind power plant.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows: the utility model provides a wind-powered electricity generation field intelligent monitoring device includes front end intelligent camera, storage analysis unit and platform server, front end intelligent camera is including the first camera that is used for face detection, the second camera that is used for thermal imaging to detect, the third camera that is used for smoking detection and the fourth camera that is used for safety helmet and safety belt to detect, first camera is connected and communicates with storage analysis unit, the second camera is connected and communicates with storage analysis unit, the third camera is connected and communicates with storage analysis unit, the fourth camera is connected and communicates with storage analysis unit, storage analysis unit is connected and communicates with the platform server.

The further technical scheme is as follows: the storage analysis unit comprises a first storage analysis unit and a second storage analysis unit, the first camera is connected with the first storage analysis unit and is in communication with the first storage analysis unit, the second camera is connected with the first storage analysis unit and is in communication with the first storage analysis unit, the third camera is connected with the second storage analysis unit and is in communication with the second storage analysis unit, and the fourth camera is connected with the second storage analysis unit and is in communication with the second storage analysis unit.

The further technical scheme is as follows: the first camera is a face detection camera, the second camera is a thermal imaging camera, the third camera is a smoking detection camera, and the fourth camera is a safety helmet and a safety belt detection camera.

The further technical scheme is as follows: the first camera is fixed on the first layer of the air inlet machine, the second camera is fixed near cabin operation equipment, the third camera is fixed near a cabin activity area, the fourth camera is fixed on the first layer of the air inlet machine, and the storage and analysis unit is fixed in the monitoring center.

The further technical scheme is as follows: the front-end intelligent camera is connected with the storage analysis unit through a video optical fiber.

The further technical scheme is as follows: the first camera is connected with the storage analysis unit through a video optical fiber, the second camera is connected with and communicates with the storage analysis unit through a video optical fiber, the third camera is connected with and communicates with the storage analysis unit through a video optical fiber, and the fourth camera is connected with and communicates with the storage analysis unit through a video optical fiber.

The further technical scheme is as follows: and the storage analysis unit is connected with the platform server through a video network cable.

The further technical scheme is as follows: the system comprises a first camera, a storage analysis unit, a face detection module, a platform server and a second camera, wherein the first camera is used for acquiring the information of the entering personnel and sending the information to the storage analysis unit; the thermal imaging detection module is used for the second camera to obtain the equipment temperature and send the equipment temperature to the storage analysis unit, the storage analysis unit obtains the equipment temperature, and when the equipment temperature exceeds a threshold value, temperature alarm information is generated and sent to the platform server; the smoking detection module is used for acquiring smoking characteristics by the third camera and sending the smoking characteristics to the storage analysis unit, the storage analysis unit acquires the smoking characteristics, smoking warning information is generated and sent to the platform server, and the smoking characteristics are characteristic values of extracted cigarettes, smoking actions, cigarette sparks or cigarette smoke; and the safety cap and safety belt module is used for acquiring the characteristics of the safety cap and the safety belt by the fourth camera and sending the characteristics to the storage analysis unit, the storage analysis unit acquires the characteristics of the safety cap and the safety belt, generates warning information of the safety cap and the safety belt and sends the warning information to the platform server, and the characteristics of the safety cap and the safety belt are characteristic values of the safety cap or the safety belt.

Adopt the produced beneficial effect of above-mentioned technical scheme to lie in:

the utility model provides a wind-powered electricity generation field intelligent monitoring device includes front end smart camera, storage analysis unit and platform server, front end smart camera is including the first camera that is used for face detection, the second camera that is used for thermal imaging to detect, the fourth camera that is used for smoking detection's third camera and is used for safety helmet and safety belt to detect, first camera is connected and communicates with storage analysis unit, the second camera is connected and communicates with storage analysis unit, the third camera is connected and communicates with storage analysis unit, the fourth camera is connected and communicates with storage analysis unit, storage analysis unit is connected and communicates with the platform server. According to the technical scheme, the wind power plant monitoring effect is good through the first camera, the second camera, the third camera, the fourth camera, the storage analysis unit, the platform server and the like.

See detailed description of the preferred embodiments.

Drawings

FIG. 1 is a schematic block diagram of embodiment 1 of the present invention;

FIG. 2 is a schematic block diagram of embodiment 2 of the present invention;

FIG. 3 is a schematic block diagram of embodiment 3 of the present invention;

fig. 4 is a topology diagram of the present invention.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the application, its application, or uses. 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 application.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application, but the present application may be practiced in other ways than those described herein, and it will be appreciated by those skilled in the art that the present application may be practiced without departing from the spirit and scope of the present application, and that the present application is not limited to the specific embodiments disclosed below.

Example 1:

as shown in fig. 1, the invention discloses an intelligent monitoring device for a wind power plant, which comprises a front-end intelligent camera, a storage analysis unit and a platform server, wherein the front-end intelligent camera comprises a face detection camera, a thermal imaging camera, a smoke detection camera, a safety helmet and a safety belt detection camera, the storage analysis unit comprises a first storage analysis unit and a second storage analysis unit, the face detection camera is fixed on one layer of an air inlet machine, the thermal imaging camera is fixed near cabin operating equipment, the smoke detection camera is fixed near an active area of the cabin, the safety helmet and the safety belt detection camera are fixed on one layer of the air inlet machine, and the first storage analysis unit and the second storage analysis unit are fixed in a monitoring center.

The face detection camera is connected with the first storage analysis unit through a video optical fiber, the thermal imaging camera is connected with and communicates with the first storage analysis unit through a video optical fiber, the smoking detection camera is connected with and communicates with the second storage analysis unit through a video optical fiber, and the safety helmet and the safety belt detection camera are connected with and communicate with the second storage analysis unit through a video optical fiber. The first storage analysis unit is connected with and communicates with the platform server through a video network cable, and the second storage analysis unit is connected with and communicates with the platform server through the video network cable.

The face detection camera, the thermal imaging camera, the smoking detection camera, the safety helmet and safety belt detection camera, the storage analysis unit, the platform server and the corresponding communication connection technology are not repeated herein for the prior art.

Example 2:

embodiment 2 differs from embodiment 1 in that the front-end smart camera includes a face detection camera, a thermal imaging camera, and a smoke detection camera.

As shown in fig. 2, the invention discloses an intelligent monitoring device for a wind power plant, which comprises a front-end intelligent camera, a storage analysis unit and a platform server, wherein the front-end intelligent camera comprises a face detection camera, a thermal imaging camera and a smoke extraction detection camera, the storage analysis unit comprises a first storage analysis unit and a second storage analysis unit, the face detection camera is fixed on one layer of an air inlet machine, the thermal imaging camera is fixed near cabin operation equipment, the smoke extraction detection camera is fixed near an active area of a cabin, and the first storage analysis unit and the second storage analysis unit are fixed in a monitoring center.

The face detection camera is connected with the first storage analysis unit through a video optical fiber, the thermal imaging camera is connected with and communicated with the first storage analysis unit through a video optical fiber, and the smoking detection camera is connected with and communicated with the second storage analysis unit through a video optical fiber. The first storage analysis unit is connected with and communicates with the platform server through a video network cable, and the second storage analysis unit is connected with and communicates with the platform server through the video network cable.

The face detection camera, the thermal imaging camera, the smoke detection camera, the storage analysis unit, the platform server and the corresponding communication connection technology are not described in detail herein for the prior art.

Example 3:

embodiment 3 differs from embodiment 1 in that the front-end smart camera includes a face detection camera, a thermal imaging camera, and a safety helmet and seat belt detection camera.

As shown in fig. 3, the invention discloses an intelligent monitoring device for a wind power plant, which comprises a front-end intelligent camera, a storage analysis unit and a platform server, wherein the front-end intelligent camera comprises a face detection camera, a thermal imaging camera, a safety helmet and a safety belt detection camera, the storage analysis unit comprises a first storage analysis unit and a second storage analysis unit, the face detection camera is fixed on one layer of an air inlet machine, the thermal imaging camera is fixed near cabin operating equipment, the safety helmet and the safety belt detection camera are fixed on one layer of the air inlet machine, and the first storage analysis unit and the second storage analysis unit are fixed in a monitoring center.

The face detection camera is connected with the first storage analysis unit through a video optical fiber, the thermal imaging camera is connected with and communicates with the first storage analysis unit through a video optical fiber, and the safety helmet and the safety belt detection camera are connected with and communicate with the second storage analysis unit through a video optical fiber. The first storage analysis unit is connected with and communicates with the platform server through a video network cable, and the second storage analysis unit is connected with and communicates with the platform server through the video network cable.

The face detection camera, the thermal imaging camera, the safety helmet and safety belt detection camera, the storage analysis unit, the platform server and the corresponding communication connection technology are not described in detail herein for the prior art.

Example 4:

embodiment 4 is different from embodiment 1 in that the system further includes a face detection module, a thermal imaging detection module, a smoking detection module, and a safety helmet and safety belt module, and totally four program modules.

The invention discloses an intelligent monitoring device for a wind power plant, which comprises a front-end intelligent camera, a storage analysis unit, a platform server, a face detection module, a thermal imaging detection module, a smoke extraction detection module, a safety helmet and a safety belt module, wherein the front-end intelligent camera comprises a face detection camera, a thermal imaging camera, a smoke extraction detection camera, a safety helmet and a safety belt detection camera, the storage analysis unit comprises a first storage analysis unit and a second storage analysis unit, the face detection camera is fixed on one layer of an air inlet machine, the thermal imaging camera is fixed near cabin operating equipment, the smoke extraction detection camera is fixed near a cabin active area, the safety helmet and the safety belt detection camera are fixed on one layer of the air inlet machine, and the first storage analysis unit and the second storage analysis unit are fixed in a monitoring center.

The face detection camera is connected with the first storage analysis unit through a video optical fiber, the thermal imaging camera is connected with and communicates with the first storage analysis unit through a video optical fiber, the smoking detection camera is connected with and communicates with the second storage analysis unit through a video optical fiber, and the safety helmet and the safety belt detection camera are connected with and communicate with the second storage analysis unit through a video optical fiber. The first storage analysis unit is connected with and communicates with the platform server through a video network cable, and the second storage analysis unit is connected with and communicates with the platform server through a video network cable.

And the face detection module is used for the first camera to obtain the information of the entering personnel and send the information to the storage analysis unit, the storage analysis unit obtains the information of the entering personnel, the information of the entering personnel is compared with the information of the bottom database, and when the person is a non-bottom-database person, the person alarm information is generated and sent to the platform server.

And the thermal imaging detection module is used for the second camera to obtain the equipment temperature and send the equipment temperature to the storage analysis unit, the storage analysis unit obtains the equipment temperature, and when the equipment temperature exceeds a threshold value, temperature alarm information is generated and sent to the platform server.

And the smoking detection module is used for obtaining smoking characteristics by the third camera and sending the smoking characteristics to the storage analysis unit, the storage analysis unit obtains the smoking characteristics, smoking warning information is generated and sent to the platform server, and the smoking characteristics are characteristic values for extracting cigarettes, smoking actions, cigarette sparks or cigarette smoke.

And the safety cap and safety belt module is used for acquiring the characteristics of the safety cap and the safety belt by the fourth camera and sending the characteristics to the storage analysis unit, the storage analysis unit acquires the characteristics of the safety cap and the safety belt, generates warning information of the safety cap and the safety belt and sends the warning information to the platform server, and the characteristics of the safety cap and the safety belt are characteristic values of the safety cap or the safety belt.

The face detection camera, the thermal imaging camera, the smoking detection camera, the safety helmet and safety belt detection camera, the storage analysis unit, the platform server and the corresponding communication connection technology are not repeated herein for the prior art.

The purpose of this application is:

aiming at the defects, scientific and technical prevention and control are added for the fan production safety processing people's air defense (personnel operation certificate audit, operation ticket, 24-hour monitoring live condition) and the object defense (door lock, police and mechanical identification, fence and the like), and safety accidents are prevented by early warning of possible safety factors through AI analysis of intelligent equipment.

Description of the technical scheme:

as shown in figure 4, the intelligent early warning system is composed of a front-end intelligent camera, a storage analysis unit, a platform server and other devices, front-end intelligent camera shooting data are transmitted back to the monitoring center storage analysis unit through video optical fibers, and the storage analysis unit reports early warning results to the platform server through a video network cable.

The technical problems of face identification comparison and safety belt identification of personnel entering a wind power plant fan, smoke extraction detection in a cabin and equipment temperature early warning are solved.

The working principle is as follows:

the intelligent AI camera at the front end is used for capturing pictures and starting alarm information and pushing the secondary analysis and filing after receiving the front-end captured pictures and the alarm information by presetting alarm conditions when the actual environment reaches or exceeds the alarm conditions, and meanwhile, pushing the result of the secondary analysis to the platform server, wherein the platform server presents the alarm information after receiving the analysis result of the storage and analysis unit, displays the popup window of the captured pictures, and reminds the alarm sound and starts the live and short-time video recording of the alarm.

Face detection camera: install at the air inlet machine one deck, prevent and control through the information of typing in licence place personnel, the people can demonstrate the face of taking a candid photograph this moment and input the whole contrastive analysis that carries out of end storehouse data when getting into personnel in the list, judge whether the affirmation is the person through setting up a threshold value (contrast similarity), contrast success side display similarity, if non-end storehouse personnel get into the side and trigger that the side is reported an emergency and asked for help or increased vigilance and propelling movement.

Smoking detection: the system is arranged near an engine room active area, an AI camera records a smoking detection algorithm, characteristic values such as cigarettes, smoking actions, cigarette sparks and cigarette smoke are mainly extracted, and smoking in the area can trigger alarm snapshot and pushing after a smoking detection function is started.

Thermal imaging: the infrared camera is arranged near cabin operation equipment, the temperature of the equipment is detected through the thermal imaging lens, the visible light lens is in linkage snapshot, and when the temperature of the equipment exceeds a threshold value, alarm snapshot and pushing are triggered.

Safety helmets and safety belts: the safety helmet and safety belt detection algorithm is recorded by the AI camera, characteristic values of the safety helmet, the safety belt and the like are mainly extracted, and after the detection function is started, alarm snapshot and pushing can be triggered without the safety helmet and the safety belt in the area.

After the application runs secretly for a period of time, the feedback of field technicians has the advantages that:

through scientific and technological means, adopt the intelligent analysis early warning to assist safety in production, compare traditional situation control and add personnel's early warning scheme advantage and have as follows:

firstly, manpower and time are saved: the special personnel are arranged to check and monitor in real time to prevent and control the early warning such as irregular operation, and meanwhile, intelligent warning information is filed, so that the types of events can be followed up to accurately and quickly check time, place and triggered snapshot pictures, short videos and other information before and after triggering are triggered, and people do not need to play and search from massive video data.

Secondly, early warning precaution is carried out in advance: the method is characterized in that a triggered alarm condition is preset in the intelligent AI camera in advance, an alarm is triggered through an over-alarm condition, and information such as sound-light alarm and popup window of an application platform reminds an operator on duty to take intervention measures in advance, eliminate possible safety factors and achieve safe production.

And thirdly, the front end adopts an intelligent AI camera, the camera adopts an open architecture, different algorithms can be loaded according to subsequent continuously changing requirements, and the requirements of different scenes in the future are met.

Fourth, the front end adopts intelligent AI camera, through constantly studying and training, in the use, all follow-up judgement cameras that trigger alarm information all can the record, can learn the training according to the record, become more and more ripe, judge that the early warning is more and more accurate.

At present, the technical scheme of the invention has been subjected to a pilot plant test, namely a small-scale test of the product before large-scale mass production; after the pilot plant test is finished, user use investigation is developed in a small range, and the investigation result shows that the user satisfaction is high; the preparation of products for formal production for industrialization (including intellectual property risk early warning research) has been started.

Claims (8)

1. The utility model provides a wind-powered electricity generation field intelligent monitoring device which characterized in that: including front end intelligent camera, storage analysis unit and platform server, front end intelligent camera is including the first camera that is used for face detection, the second camera that is used for thermal imaging to detect, the fourth camera that is used for the third camera of smoking detection and is used for safety helmet and safety belt to detect, first camera is connected and communicates with storage analysis unit, the second camera is connected and communicates with storage analysis unit, the third camera is connected and communicates with storage analysis unit, the fourth camera is connected and communicates with storage analysis unit, storage analysis unit is connected and communicates with platform server.

2. The intelligent monitoring device for the wind power plant according to claim 1, characterized in that: the storage analysis unit comprises a first storage analysis unit and a second storage analysis unit, the first camera is connected with and communicates with the first storage analysis unit, the second camera is connected with and communicates with the first storage analysis unit, the third camera is connected with and communicates with the second storage analysis unit, and the fourth camera is connected with and communicates with the second storage analysis unit.

3. The intelligent monitoring device for the wind power plant according to claim 1, characterized in that: the first camera is a face detection camera, the second camera is a thermal imaging camera, the third camera is a smoking detection camera, and the fourth camera is a safety helmet and a safety belt detection camera.

4. The intelligent monitoring device for the wind power plant according to claim 1, characterized in that: the first camera is fixed on the first layer of the air inlet machine, the second camera is fixed near cabin operation equipment, the third camera is fixed near a cabin activity area, the fourth camera is fixed on the first layer of the air inlet machine, and the storage and analysis unit is fixed in the monitoring center.

5. The intelligent monitoring device for the wind power plant according to claim 1, characterized in that: the front-end intelligent camera is connected with the storage analysis unit through a video optical fiber.

6. The intelligent monitoring device for the wind power plant according to claim 5, characterized in that: the first camera is connected with the storage analysis unit through a video optical fiber, the second camera is connected with and communicates with the storage analysis unit through a video optical fiber, the third camera is connected with and communicates with the storage analysis unit through a video optical fiber, and the fourth camera is connected with and communicates with the storage analysis unit through a video optical fiber.

7. The intelligent monitoring device for the wind power plant according to claim 6, characterized in that: and the storage analysis unit is connected with the platform server through a video network cable.

8. The intelligent monitoring device for the wind power plant according to any one of claims 1 to 7, characterized in that: also included are program modules which, when executed by the processor,

the face detection module is used for the first camera to obtain the information of the entering personnel and send the information to the storage analysis unit, the storage analysis unit obtains the information of the entering personnel, the information of the entering personnel is compared with the information of the bottom database, and when the person is a person not in the bottom database, the person alarm information is generated and sent to the platform server;

the thermal imaging detection module is used for the second camera to obtain the equipment temperature and send the equipment temperature to the storage analysis unit, the storage analysis unit obtains the equipment temperature, and when the equipment temperature exceeds a threshold value, temperature alarm information is generated and sent to the platform server;

the smoking detection module is used for acquiring smoking characteristics by the third camera and sending the smoking characteristics to the storage analysis unit, the storage analysis unit acquires the smoking characteristics, generates smoking warning information and sends the smoking warning information to the platform server, and the smoking characteristics are characteristic values of extracted cigarettes, smoking actions, cigarette sparks or cigarette smoke;

and the safety cap and safety belt module is used for acquiring the characteristics of the safety cap and the safety belt by the fourth camera and sending the characteristics to the storage analysis unit, the storage analysis unit acquires the characteristics of the safety cap and the safety belt, generates warning information of the safety cap and the safety belt and sends the warning information to the platform server, and the characteristics of the safety cap and the safety belt are the characteristic values of the safety cap or the safety belt.

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