阅读说明：本技术 一种人工智能输煤系统及方法 (Artificial intelligent coal conveying system and method ) 是由 李智强 周晓湘 秦小阳 白献锁 王刚 尹宏宾 仪鹏飞 陶泽 杜君 李建军 邢志刚 于 2021-08-03 设计创作，主要内容包括：本发明公开了一种人工智能输煤系统及方法,该输煤系统包括：输煤系统,所述输煤系统用于火电厂煤炭输送,保证所述火电厂稳定运行；人工智能控制系统,所述人工智能控制系统的输出端与所述输煤系统的输入端电连接,所述人工智能控制系统控制所述输煤系统的工作；信号采集系统,所述信号采集系统的输出端与所述人工智能控制系统的输入端电连接,所述信号采集系统采集所述输煤系统工作时的工作参数数据并传送到所述人工智能控制系统；报警系统,所述报警系统用于发出警报提示声音。本发明便于及时发现故障问题,并将故障信息及时传递出去,自动化程度高,降低系统安全隐患。(The invention discloses an artificial intelligence coal conveying system and a method, wherein the coal conveying system comprises: the coal conveying system is used for conveying coal of a thermal power plant and ensures the stable operation of the thermal power plant; the output end of the artificial intelligence control system is electrically connected with the input end of the coal conveying system, and the artificial intelligence control system controls the work of the coal conveying system; the output end of the signal acquisition system is electrically connected with the input end of the artificial intelligence control system, and the signal acquisition system acquires working parameter data of the coal conveying system during working and transmits the working parameter data to the artificial intelligence control system; and the alarm system is used for giving out alarm prompt sound. The invention is convenient for finding out the fault problem in time and transmitting the fault information in time, has high automation degree and reduces the potential safety hazard of the system.)

1. An artificial intelligence coal conveying system, comprising:

the coal conveying system is used for conveying coal of a thermal power plant and ensures the stable operation of the thermal power plant;

the output end of the artificial intelligence control system is electrically connected with the input end of the coal conveying system, and the artificial intelligence control system controls the work of the coal conveying system;

the output end of the signal acquisition system is electrically connected with the input end of the artificial intelligence control system, and the signal acquisition system acquires working parameter data of the coal conveying system during working and transmits the working parameter data to the artificial intelligence control system;

and the alarm system is used for giving out alarm prompt sound.

2. The artificial intelligence coal conveying system of claim 1, wherein the coal conveying system comprises:

a coal storage system for the coal storage and the coal discharge;

the feeding end of the conveying system is connected with the discharging end of the coal storage system, and the conveying system is used for conveying coal;

the dust removal system is arranged above the conveying system and is used for removing dust generated in coal transportation

The air supply system is used for conveying air;

the feeding end of the boiler system is communicated with the discharging end of the conveying system, and the boiler system utilizes the coal to perform combustion power generation;

the dust removal and desulfurization system is used for removing dust and desulfurization of flue gas discharged by the boiler system;

and the air outlet system is used for discharging the flue gas after dust removal and desulfurization, and the air outlet end of the air outlet system is communicated with the atmosphere.

3. The artificial intelligence coal conveying system of claim 1, wherein the artificial intelligence control system comprises:

the coal storage system control module controls the coal discharge of the coal storage system;

a conveying system control module that controls coal conveying of the conveying system;

the dust removal system control module controls the dust removal system to remove dust;

the air supply system control module controls the air supply system to convey air;

the boiler system control module controls the combustion power generation of the boiler system;

the dust removal and desulfurization system control module controls the dust removal and desulfurization system to filter flue gas;

and the air outlet system control module controls the air outlet system to discharge and filter smoke.

4. The artificial intelligence coal conveying system of claim 3, wherein the artificial intelligence control system further comprises:

the micro-processing module is used for processing the information transmitted by the information acquisition system;

and the storage module stores the information transmitted by the information acquisition system.

5. The artificial intelligence coal conveying system of claim 1, wherein the signal acquisition system comprises:

the screen acquisition module is used for shooting the coal output of the coal storage system;

the speed acquisition module is used for acquiring the speed information transported by the conveying system;

the dust concentration acquisition module is used for acquiring dust concentration information at the conveying system;

the wind speed acquisition module is used for acquiring air speed information of the air supply system;

the temperature acquisition module is used for acquiring temperature information of the boiler system;

and the gas collection module is used for collecting the gas type information of the air outlet system.

6. The artificial intelligence coal conveying system of claim 1, wherein the alarm system includes a buzzer.

7. The artificial intelligence coal conveying system of claim 2, wherein the coal storage system is a coal bunker.

8. The artificial intelligence coal conveying system of claim 2, wherein the conveying system is a conveyor belt.

9. The artificial intelligence coal conveying system of claim 2, wherein the air supply system is a duct and blower.

10. An artificial intelligence coal conveying method is characterized by comprising the following operation steps:

s1: the coal storage system control module controls the coal discharge of the coal storage system and conveys coal to the conveying system, and the screen acquisition module shoots a coal discharge screen of the coal storage system and transmits a picture to the artificial intelligent control system;

s2: the conveying system control module controls a conveying system to convey coal, the conveying system conveys the coal into the boiler system, and the speed acquisition module acquires conveying speed information of the conveying system and transmits the speed information to the artificial intelligence control system;

s3: the dust removal system control module controls the dust removal system to remove dust, the dust removal system removes dust generated during coal transportation, and the dust concentration acquisition module acquires dust concentration information at the conveying system and transmits the dust concentration information to the artificial intelligent control system;

s4: the air supply system control module controls the air supply system to convey air into the boiler system, and the air speed acquisition module acquires air speed information of the air supply system and transmits the air speed information to the artificial intelligence control system;

s5: the boiler system control module controls the boiler system to burn and generate power, and the temperature acquisition module acquires temperature information in the boiler system and transmits the temperature information to the artificial intelligent control system;

s6: the dust removal and desulfurization system control module controls the dust removal and desulfurization system to filter smoke, and the gas acquisition module acquires harmful gas information and transmits the harmful gas information to the artificial intelligent control system;

s7: the artificial intelligence control system judges whether coal falls to the ground when the coal storage system delivers coal, whether the speed information of the conveying system is normal, whether the dust concentration information at the conveying system is normal, whether the air speed information of the air supply system is normal, whether the temperature information in the boiler system is normal, and whether the gas filtered by the dedusting and desulfurizing system contains harmful gas;

s8: if the fault exists, the artificial intelligence control system transmits information to an alarm system, and the alarm system sends out an alarm prompt.

Technical Field

The invention belongs to the technical field of coal conveying of thermal power plants, and particularly relates to an artificial intelligence coal conveying system and method.

Background

Coal is a combustible black or brownish black sedimentary rock, usually occurring in the rock strata or veins of coal beds or beds, and is a very important energy source, mainly producing electricity or heat energy by combustion; the coal conveying system refers to a conveying device and a control device thereof for coal from a coal unloading point to a coal yard and from the coal yard to a boiler coal bunker.

At present, the generating capacity of China is the largest in proportion or thermal power generation, the coal conveying system of thermal power generation cannot find out the fault in time, fault information cannot be transmitted out in time, the automation degree is low, system paralysis even can be caused in serious conditions, and potential safety hazards of operation exist.

Disclosure of Invention

The invention aims to provide an artificial intelligent coal conveying system and method aiming at the defects in the prior art, so that the fault of the coal conveying system can be found in time, the automation degree is high, and the potential safety hazard is reduced.

In order to achieve the above object, the present invention provides an artificial intelligence coal conveying system, comprising:

the coal conveying system is used for conveying coal of a thermal power plant and ensures the stable operation of the thermal power plant;

the output end of the artificial intelligence control system is electrically connected with the input end of the coal conveying system, and the artificial intelligence control system controls the work of the coal conveying system;

the output end of the signal acquisition system is electrically connected with the input end of the artificial intelligence control system, and the signal acquisition system acquires working parameter data of the coal conveying system during working and transmits the working parameter data to the artificial intelligence control system;

and the alarm system is used for giving out alarm prompt sound.

Optionally, the coal conveying system comprises:

a coal storage system for the coal storage and the coal discharge;

the feeding end of the conveying system is connected with the discharging end of the coal storage system, and the conveying system is used for conveying coal;

the dust removal system is arranged above the conveying system and is used for removing dust generated in coal transportation

The air supply system is used for conveying air;

the feeding end of the boiler system is communicated with the discharging end of the conveying system, and the boiler system utilizes the coal to perform combustion power generation;

the dust removal and desulfurization system is used for removing dust and desulfurization of flue gas discharged by the boiler system;

and the air outlet system is used for discharging the flue gas after dust removal and desulfurization, and the air outlet end of the air outlet system is communicated with the atmosphere.

Optionally, the artificial intelligence control system includes:

the coal storage system control module controls the coal discharge of the coal storage system;

a conveying system control module that controls coal conveying of the conveying system;

the dust removal system control module controls the dust removal system to remove dust;

the air supply system control module controls the air supply system to convey air;

the boiler system control module controls the combustion power generation of the boiler system;

the dust removal and desulfurization system control module controls the dust removal and desulfurization system to filter flue gas;

and the air outlet system control module controls the air outlet system to discharge and filter smoke.

Optionally, the artificial intelligence control system further includes:

the micro-processing module is used for processing the information transmitted by the information acquisition system;

and the storage module stores the information transmitted by the information acquisition system.

Optionally, the signal acquisition system includes:

the screen acquisition module is used for shooting the coal output of the coal storage system;

the speed acquisition module is used for acquiring the speed information transported by the conveying system;

the dust concentration acquisition module is used for acquiring dust concentration information at the conveying system;

the wind speed acquisition module is used for acquiring air speed information of the air supply system;

the temperature acquisition module is used for acquiring temperature information of the boiler system;

and the gas collection module is used for collecting the gas type information of the air outlet system.

Optionally, the alarm system includes a buzzer.

Optionally, the coal storage system is a coal storage bunker.

Optionally, the conveying system is a conveyor belt.

Optionally, the air supply system is a pipeline and a blower.

The invention also provides an artificial intelligent coal conveying method, which comprises the following operation steps:

s1: the coal storage system control module controls the coal discharge of the coal storage system and conveys coal to the conveying system, and the screen acquisition module shoots a coal discharge screen of the coal storage system and transmits a picture to the artificial intelligent control system;

s2: the conveying system control module controls a conveying system to convey coal, the conveying system conveys the coal into the boiler system, and the speed acquisition module acquires conveying speed information of the conveying system and transmits the speed information to the artificial intelligence control system;

s3: the dust removal system control module controls the dust removal system to remove dust, the dust removal system removes dust generated during coal transportation, and the dust concentration acquisition module acquires dust concentration information at the conveying system and transmits the dust concentration information to the artificial intelligent control system;

s4: the air supply system control module controls the air supply system to convey air into the boiler system, and the air speed acquisition module acquires air speed information of the air supply system and transmits the air speed information to the artificial intelligence control system;

s5: the boiler system control module controls the boiler system to burn and generate power, and the temperature acquisition module acquires temperature information in the boiler system and transmits the temperature information to the artificial intelligent control system;

s6: the dust removal and desulfurization system control module controls the dust removal and desulfurization system to filter smoke, and the gas acquisition module acquires harmful gas information and transmits the harmful gas information to the artificial intelligent control system;

s7: the artificial intelligence control system judges whether coal falls to the ground when the coal storage system delivers coal, whether the speed information of the conveying system is normal, whether the dust concentration information at the conveying system is normal, whether the air speed information of the air supply system is normal, whether the temperature information in the boiler system is normal, and whether the gas filtered by the dedusting and desulfurizing system contains harmful gas;

s8: if the fault exists, the artificial intelligence control system transmits information to an alarm system, and the alarm system sends out an alarm prompt.

The artificial intelligent coal conveying system and the method provided by the invention have the beneficial effects that:

the coal in the coal storage system is conveyed into the boiler system by the control of the artificial intelligent control system, the dust removal system removes dust when conveying the coal by the conveying system, the air supply system conveys air into the boiler system to provide oxygen for combustion and power generation of the boiler system, the dust removal and desulfurization system removes dust and desulfurizes flue gas, the air outlet system discharges the flue gas after dust removal and desulfurization, the screen acquisition module shoots a coal outlet screen of the coal storage system, the speed acquisition module acquires conveying speed information of the conveying system, the dust concentration acquisition module acquires dust concentration information at the conveying system, the air speed acquisition module acquires air speed information of the air supply system, the temperature acquisition module acquires temperature information in the boiler system, the gas acquisition module acquires harmful gas information, and the information acquisition system acquires working parameter data information when the coal conveying system works and transmits the working parameter data information to the artificial intelligent control system, the artificial intelligence control system judges whether the information transmitted by the information acquisition system has faults or not, if yes, the artificial intelligence control system transmits the information to the alarm system, and the alarm system sends out an alarm prompt so as to find out the fault problem in time and transmit the fault information out in time, so that the degree of automation is high, and the potential safety hazard of the system is reduced.

Additional features and advantages of the invention will be set forth in the detailed description which follows.

Drawings

The above and other objects, features and advantages of the present invention will become more apparent by describing in more detail exemplary embodiments thereof with reference to the attached drawings, in which like reference numerals generally represent like parts throughout.

FIG. 1 shows a schematic diagram of an artificial intelligence coal conveying system of one embodiment of the present invention.

Fig. 2 is a flow chart of an artificial intelligence coal conveying method according to an embodiment of the invention.

Description of reference numerals:

1. a coal conveying system; 2. an artificial intelligence control system; 3. a signal acquisition system; 4. an alarm system; 5. a coal storage system; 6. a delivery system; 7. an air supply system; 8. a boiler system; 9. a dust removal and desulfurization system; 10. an air outlet system; 11. a coal storage system control module; 12. a conveying system control module; 13. an air supply system control module; 14. a boiler system control module; 15. a dust removal and desulfurization system control module; 16. an air outlet system control module; 17. a microprocessor module; 18. a storage module; 19. a view screen acquisition module; 20. a temperature acquisition module; 21. a speed acquisition module; 22. a wind speed acquisition module; 23. a gas collection module; 24. a dust removal system; 25. a dust removal system control module; 26. and a dust concentration acquisition module.

Detailed Description

Preferred embodiments of the present invention will be described in more detail below. While the following describes preferred embodiments of the present invention, it should be understood that the present invention may be embodied in various forms and should not be limited by the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art.

In order to achieve the above object, the present invention provides an artificial intelligence coal conveying system, comprising:

the coal conveying system is used for conveying coal of the thermal power plant, and ensures the stable operation of the thermal power plant;

the output end of the artificial intelligent control system is electrically connected with the input end of the coal conveying system, and the artificial intelligent control system controls the work of the coal conveying system;

the output end of the signal acquisition system is electrically connected with the input end of the artificial intelligent control system, and the signal acquisition system acquires working parameter data of the coal conveying system during working and transmits the working parameter data to the artificial intelligent control system;

and the alarm system is used for sending out alarm prompt sound.

Specifically, the artificial intelligence control system controls the coal conveying system to work, the signal acquisition system acquires working parameter data of the coal conveying system during working and transmits the working parameter data to the artificial intelligence control system for real-time monitoring, and the alarm system gives an alarm prompt when the coal conveying system breaks down.

Optionally, the coal conveying system comprises:

the coal storage system is used for coal storage and coal discharge;

the feeding end of the conveying system is connected with the discharging end of the coal storage system, and the conveying system is used for conveying coal;

the dust removal system is arranged above the conveying system and is used for removing dust generated in coal transportation

The air inlet end of the air supply system is communicated with air, and the air supply system is used for conveying the air;

the feeding end of the boiler system is communicated with the discharging end of the conveying system, and the boiler system utilizes coal to perform combustion power generation;

the dust removal and desulfurization system is used for removing dust and desulfurization from the flue gas discharged by the boiler system;

the air outlet system is used for discharging flue gas after dust removal and desulfurization, and the air outlet end of the air outlet system is communicated with the atmosphere.

Specifically, coal in the coal storage system is conveyed to the boiler system through the conveying system, the dust removal system removes dust when conveying the coal for the conveying system, the air supply system conveys air to the boiler system, oxygen is provided for combustion and power generation of the boiler system, the dust removal and desulfurization system removes dust and desulfurizes smoke, and the air outlet system discharges the dust and desulfurized smoke.

Optionally, the artificial intelligence control system includes:

the coal storage system control module controls the coal discharge of the coal storage system;

the conveying system control module controls the conveying system to convey coal;

the dust removal system control module controls the dust removal system to remove dust;

the air supply system control module controls the air supply system to convey air;

the boiler system control module controls the combustion power generation of the boiler system;

the dust removal and desulfurization system control module controls the dust removal and desulfurization system to filter the flue gas;

and the air outlet system control module controls the air outlet system to discharge and filter the flue gas.

Specifically, the artificial intelligence control system controls the coal discharging of the coal storage system, the coal conveying of the conveying system, the dust removal system for removing dust, the air conveying system for conveying air, the combustion power generation of the boiler system, the dust removal and desulfurization system for filtering flue gas, and the air outlet system for discharging filtered flue gas, so that the degree of automation is high.

Optionally, the artificial intelligence control system further includes:

the micro-processing module is used for processing the information transmitted by the information acquisition system;

and the storage module stores the information transmitted by the information acquisition system.

Optionally, the signal acquisition system includes:

the screen acquisition module is used for shooting coal output of the coal storage system;

the speed acquisition module is used for acquiring the speed information transported by the conveying system;

the dust concentration acquisition module is used for acquiring dust concentration information at the conveying system;

the wind speed acquisition module is used for acquiring air speed information of the air supply system;

the temperature acquisition module is used for acquiring temperature information of the boiler system;

and the gas collection module is used for collecting the gas type information of the air outlet system.

Specifically, the signal acquisition system acquires working parameters of the coal conveying system during working, so that the coal conveying system is prevented from being broken down, the faults are conveniently found in time, and potential safety hazards are reduced.

Optionally, the alarm system comprises a buzzer.

Optionally, the coal storage system is a coal bunker.

In particular, it is convenient to store coal.

Optionally, the conveying system is a conveyor belt.

In particular, the conveying of coal is facilitated.

Optionally, the air supply system is a duct and a blower.

In particular, it is convenient to deliver air for power generation in a boiler system.

The invention also provides an artificial intelligent coal conveying method, which comprises the following operation steps:

s1: the coal storage system control module controls the coal storage system to discharge coal, the coal is conveyed to the conveying system, the screen view acquisition module shoots a coal discharge screen of the coal storage system, and a picture is transmitted to the artificial intelligence control system;

s2: the conveying system control module controls the conveying system to convey coal, the conveying system conveys the coal into the boiler system, and the speed acquisition module acquires conveying speed information of the conveying system and transmits the speed information to the artificial intelligence control system;

s3: the dust removal system control module controls the dust removal system to remove dust, the dust removal system removes dust generated during coal transportation, and the dust concentration acquisition module acquires dust concentration information at the conveying system and transmits the dust concentration information to the artificial intelligent control system;

s4: the air supply system control module controls the air supply system to convey air into the boiler system, and the air speed acquisition module acquires air speed information of the air supply system and transmits the air speed information to the artificial intelligent control system;

s5: the boiler system control module controls the boiler system to burn and generate power, and the temperature acquisition module acquires temperature information in the boiler system and transmits the temperature information to the artificial intelligence control system;

s6: the dust removal and desulfurization system control module controls the dust removal and desulfurization system to filter flue gas, and the gas acquisition module acquires harmful gas information and transmits the harmful gas information to the artificial intelligent control system;

s7: the artificial intelligence control system judges whether coal falls to the ground when the coal storage system delivers coal, whether the speed information of the conveying system is normal, whether the dust concentration information at the conveying system is normal, whether the air speed information of the air supply system is normal, whether the temperature information in the boiler system is normal, and whether the gas filtered by the dedusting and desulfurizing system contains harmful gas;

s8: if the fault exists, the artificial intelligence control system transmits the information to the alarm system, and the alarm system gives an alarm prompt.

To sum up, the conveying system is controlled by the artificial intelligent control system to convey coal in the coal storage system into the boiler system, the dedusting system removes dust when conveying the coal by the conveying system, the air supply system conveys air into the boiler system to provide oxygen for combustion and power generation of the boiler system, the dedusting and desulfurizing system removes dust and desulfurizes flue gas, the air outlet system discharges the flue gas after dedusting and desulfurizing, the screen acquisition module shoots a coal outlet screen of the coal storage system, the speed acquisition module acquires conveying speed information of the conveying system, the dust concentration acquisition module acquires dust concentration information at the conveying system, the air speed acquisition module acquires air speed information of the air supply system, the temperature acquisition module acquires temperature information in the boiler system, the gas acquisition module acquires harmful gas information, the information acquisition system acquires working parameter data information when the coal conveying system works and transmits the working parameter data information to the artificial intelligent control system, the artificial intelligence control system judges whether the information transmitted by the information acquisition system has faults or not, if yes, the artificial intelligence control system transmits the information to the alarm system, and the alarm system sends out an alarm prompt so as to find out the fault problem in time and transmit the fault information out in time, so that the degree of automation is high, and the potential safety hazard of the system is reduced.

Examples

Referring to fig. 1 and 2, the present invention provides an artificial intelligence coal conveying system, including:

the coal conveying system 1 is used for conveying coal of a thermal power plant, and ensures the stable operation of the thermal power plant;

the output end of the artificial intelligence control system 2 is electrically connected with the input end of the coal conveying system 1, and the artificial intelligence control system 2 controls the coal conveying system 1 to work;

the output end of the signal acquisition system 3 is electrically connected with the input end of the artificial intelligence control system 2, and the signal acquisition system 3 acquires working parameter data of the coal conveying system 1 during working and transmits the working parameter data to the artificial intelligence control system 2;

the alarm system 4, the alarm system 4 is used for giving out the alarm suggestion sound.

Alternatively, the coal conveying system 1 includes:

the coal storage system 5 is used for coal storage and coal discharging;

the feeding end of the conveying system 6 is connected with the discharging end of the coal storage system 5, and the conveying system 6 is used for conveying coal;

the dust removal system 24 is arranged above the conveying system 6, and the dust removal system 24 is used for removing dust generated in coal transportation

The air supply system 7 is used for conveying air, and an air inlet end of the air supply system 7 is communicated with the air;

the feeding end of the boiler system 8 is communicated with the discharging end of the conveying system 6, and the boiler system 8 utilizes coal to perform combustion power generation;

the dust removal and desulfurization system 9 is characterized in that the gas inlet end of the dust removal and desulfurization system 9 is communicated with the gas outlet end of the boiler system 8, and the dust removal and desulfurization system 9 is used for removing dust and desulfurization from the flue gas discharged by the boiler system 8;

the air outlet system 10, the air inlet end of the air outlet system 10 communicates with the air outlet end of the dust removal and desulfurization system 9, the air outlet system 10 is used for discharging the flue gas after dust removal and desulfurization, and the air outlet end of the air outlet system 10 communicates with the atmosphere.

Optionally, the artificial intelligence control system 2 includes:

the coal storage system control module 11 is used for controlling the coal discharging of the coal storage system 5;

the conveying system control module 12, the conveying system control module 12 controls the coal conveying of the conveying system 6;

the dust removal system control module 25, the dust removal system control module 25 controls the dust removal system 24 to remove dust;

the air supply system control module 13, the air supply system control module 13 controls the air supply system 7 to deliver air;

the boiler system control module 14, the boiler system control module 14 controls the combustion power generation of the boiler system 8;

the dust removal and desulfurization system control module 15, the dust removal and desulfurization system control module 15 controls the dust removal and desulfurization system 9 to filter the flue gas;

the air outlet system control module 16, the air outlet system control module 16 controls the air outlet system 10 to discharge the filtered flue gas.

Optionally, the artificial intelligence control system 2 further includes:

the micro-processing module 17, the micro-processing module 17 processes the information transmitted by the information acquisition system 3;

and the storage module 18, the storage module 18 stores the information transmitted by the information acquisition system 3.

Optionally, the signal acquisition system 3 includes:

the screen acquisition module 19 is used for shooting the coal output of the coal storage system 5;

the speed acquisition module 20 is used for acquiring the speed information of the transportation system 6;

the dust concentration acquisition module 26 is used for acquiring dust concentration information at the coal conveying system 6;

the wind speed acquisition module 21 is used for acquiring air speed information of the air supply system 7;

the temperature acquisition module 22 is used for acquiring temperature information of the boiler system 8;

and the gas collection module 23 is used for collecting the gas type information of the air outlet system 10.

Optionally, the alarm system 4 comprises a buzzer.

Optionally, the coal storage system 5 is a coal bunker.

Optionally, the conveying system 6 is a conveyor belt.

Optionally, the air supply system 7 is a duct and blower.

The invention also provides an artificial intelligent coal conveying method, which comprises the following operation steps:

s1: the coal storage system control module 11 controls the coal storage system 5 to discharge coal, the coal is conveyed to the conveying system 6, the screen viewing acquisition module 19 shoots a coal discharge screen of the coal storage system 5, and a picture is transmitted to the artificial intelligence control system 2;

s2: the conveying system control module 12 controls the conveying system 6 to convey coal, the conveying system 6 conveys the coal into the boiler system 8, the speed acquisition module 21 acquires conveying speed information of the conveying system 6 and transmits the speed information to the artificial intelligence control system 2;

s3: the dust removal system control module 25 controls the dust removal system 24 to remove dust, the dust removal system 24 removes dust generated during coal transportation, and the dust concentration acquisition module 26 acquires dust concentration information at the coal transportation system 6 and transmits the dust concentration information to the artificial intelligent control system 2;

s4: the air supply system control module 13 controls the air supply system 7 to convey air into the boiler system 8, and the air speed acquisition module 22 acquires air speed information of the air supply system 7 and transmits the air speed information to the artificial intelligence control system 2;

s5: the boiler system control module 14 controls the boiler system 8 to burn and generate power, and the temperature acquisition module 20 acquires temperature information in the boiler system 8 and transmits the temperature information to the artificial intelligent control system 2;

s6: the dust removal and desulfurization system control module 15 controls the dust removal and desulfurization system 9 to filter flue gas, and the gas acquisition module 23 acquires harmful gas information and transmits the harmful gas information to the artificial intelligent control system 2;

s7: the artificial intelligence control system 2 judges whether coal falls to the ground when the coal storage system 5 discharges coal, whether the speed information of the conveying system 6 is normal, whether the dust concentration information at the conveying system 6 is normal, whether the air speed information of the air supply system 7 is normal, whether the temperature information in the boiler system 8 is normal, and whether the gas filtered by the dedusting and desulfurizing system 9 contains harmful gas;

s8: if the fault exists, the artificial intelligence control system 2 transmits the information to the alarm system 4, and the alarm system 4 gives an alarm prompt.

To sum up, coal in the coal storage system 5 is conveyed to the boiler system 8 by the conveying system 6 controlled by the artificial intelligent control system 2, the dust removal system 24 removes dust when conveying coal for the conveying system 6, the air supply system 7 conveys air to the boiler system 8, oxygen is provided for combustion power generation of the boiler system 8, the dust removal and desulfurization system 9 removes dust and desulfurizes flue gas, the flue gas after dust removal and desulfurization is discharged by the air outlet system 10, the screen acquisition module 19 shoots a coal outlet screen of the coal storage system 5, the speed acquisition module 21 acquires conveying speed information of the conveying system 6, the dust concentration acquisition module 26 acquires dust concentration information at the conveying system 6, the air speed acquisition module 22 acquires air speed information of the air supply system 7, the temperature acquisition module 20 acquires temperature information in the boiler system 8, the gas acquisition module 23 acquires harmful gas information, the information acquisition system 3 acquires working parameter data information when the coal conveying system 1 works and transmits the working parameter data information to the artificial intelligent control system 2, artificial intelligence control system 2 judges whether there is the trouble in the information that information acquisition system 3 transmitted, if there is the trouble, and artificial intelligence control system 2 transmits information to alarm system 4, and alarm system 4 sends the warning suggestion, is convenient for in time discover the trouble problem to in time transmit away trouble information, degree of automation is high, reduction system potential safety hazard.

Having described embodiments of the present invention, the foregoing description is intended to be exemplary, not exhaustive, and not limited to the embodiments disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art without departing from the scope and spirit of the described embodiments.