CN112871940B - Paroxysmal non-fixed point source dust control effect monitoring system and method - Google Patents

Abstract

The invention provides a system and a method for supervising the control effect of paroxysmal non-fixed point source dust, wherein the system comprises: the system comprises a sensing module, an analysis module and a management module; the sensing module comprises: the device comprises an image acquisition device and a data transmission component; the image acquisition device is used for acquiring the image information of the dust diffusion condition, the personnel operation and the position of the dust hood and sending the image information to the data transmission component; the data transmission component is used for forwarding the image information to the analysis module; the analysis module is used for judging whether the personnel operation has problems or not based on the image information, and sending violation records and/or operation instructions to the management module when the personnel operation has problems; the management module stores the violation record; and/or performing corresponding operation based on the operation instruction. The invention supervises the operation of the operator, improves the running efficiency of the exhaust of the dust hood, and has the advantages of simple system installation, convenient operation, small influence on the process production and the like.

Description

Paroxysmal non-fixed point source dust control effect supervision system and method

Technical Field

The invention relates to the technical field of environmental protection dust removal, in particular to a monitoring system and a monitoring method for a burst non-fixed point source dust control effect.

Background

There is not fixed in a large amount of stations among the industrial production process, and the inorganization emission source that the dust paroxysmal gived off, this type of pollution hardly uses fixed exhaust system to carry out the entrapment to the dust of loss, and then spreads to indoor or outdoor environmental space on a large scale, causes very big pollution. At present, a movable dust hood can be mainly arranged by adopting a treatment means, and the dust hood is moved to the upper part of a pollutant emission area by workers to collect dust emitted in the production process. However, since the position of the dust hood is changed or the dust hood is moved during the production operation, which may affect the production efficiency of the process, the worker often does not move the dust hood to the corresponding position during the actual operation, which results in a significant decrease in the efficiency of the technical measure, and further causes a great amount of dust to escape, thereby seriously polluting the surrounding environment. In this case, the effect obtained by the manual inspection is very limited, and the effect can be displayed only when the inspector is near the operator. The site works at the same time, so that the working time is long, and the long-time continuous manual inspection is difficult to achieve; by adopting a traditional video monitoring mode, people also need to pay continuous attention, or the pollution is called and checked after the pollution diffusion has a large influence. These methods have the disadvantages of weak sustainability and timeliness, and are not beneficial to the whole-cycle treatment of the dust emission.

Therefore, it is desirable to solve the problem of how to monitor the operation of the operator and how to monitor the dust control effect.

Disclosure of Invention

In view of the above disadvantages of the prior art, an object of the present invention is to provide a monitoring system and method for monitoring dust control effect of a point source, which are used to solve the problem of how to monitor the operation of an operator and how to monitor the dust control effect in the prior art.

To achieve the above and other related objects, the present invention provides a system for monitoring the effectiveness of dust control of a burst non-stationary point source, the system comprising: the system comprises a perception module, an analysis module and a management module; the sensing module comprises: the device comprises an image acquisition device and a data transmission component; the image acquisition device is used for acquiring the image information of the dust diffusion condition, the personnel operation and the position of the dust hood and sending the image information to the data transmission component; the data transmission component is used for transmitting the image information to the analysis module; the analysis module is used for judging whether the personnel operation has problems or not based on the image information, and sending violation records and/or operation instructions to the management module when the personnel operation has problems; the management module stores the violation record; and/or receiving and displaying the operation instruction.

In an embodiment of the present invention, the data transmission unit includes: 4G/5G wireless communication terminal, data line or signal line transmission terminal.

In an embodiment of the present invention, the determining whether the human operation has a problem based on the image information includes: the analysis module is used for analyzing the difference between the actual interval between the dust position in the image and the position of the dust hood and a preset threshold interval based on the image information, and when the actual interval is larger than or equal to the preset threshold interval, the position of the dust hood is placed in the personnel operation; or the analysis module is used for analyzing the distance between the image information and the position of the dust hood in the standard operation diagram library based on an image analysis algorithm, and when the distance between the position of the dust and the position of the dust hood in the image information is greater than or equal to the distance in the standard operation diagram library, the problem of dust hood position arrangement exists in the personnel operation; or the analysis module is used for analyzing the area size occupied by dust in the image information based on an image analysis algorithm, and when the dust area size is larger than or equal to the preset dust area size, the position of the dust hood is placed in the personnel operation.

In an embodiment of the present invention, the analysis module includes: the device comprises a host part, a storage part, a human-computer interaction device and a communication part; the host part takes a high-speed single chip microcomputer as a main control chip and is connected with other parts by utilizing a serial port of the single chip microcomputer; the storage part includes: random access memory, read only memory, or external memory; the man-machine interaction device is I/O equipment, and comprises: a keyboard, mouse, touch screen or monitor; the communication component comprises: 4G/5G wireless communication terminal or data line and signal line transmission terminal.

In an embodiment of the present invention, the management module includes: an operator mobile terminal and a manager mobile terminal; the operator mobile terminal includes: a GPRS locator and an information reminding receiving device; the GPRS positioner is used for acquiring position information in real time and sending the position information to the analysis module; the information reminding receiving device has the functions of information display and reminding, and can receive and display the operation instruction sent by the analysis module so as to remind a worker to correct the operation; the manager mobile terminal comprises a display device, a rule violation analysis module and a rule violation analysis module, wherein the display device is used for receiving and displaying rule violation records and image information sent by the analysis module; the image information includes: dust diffusion status, personnel operation, and dust hood position.

In order to achieve the above object, the present invention further provides a method for supervising the control effect of a paroxysmal non-fixed point source dust, wherein the system for supervising the control effect of a paroxysmal non-fixed point source dust is used for supervising the control effect of a paroxysmal non-fixed point source dust, and comprises: the system comprises a perception module, an analysis module and a management module; the sensing module comprises: the device comprises an image acquisition device and a data transmission component; the method comprises the following steps: collecting image information of dust diffusion condition, personnel operation and a dust hood position based on the image collecting device, and sending the image information to a data transmission component; forwarding the image information to an analysis module based on the data transmission component; judging whether the personnel operation has problems or not based on the image information by the analysis module, and sending violation records and/or operation instructions to a management module when the personnel operation has problems; and storing the violation record based on the management module, and/or receiving and displaying the operation instruction.

In an embodiment of the present invention, the data transmission unit includes: 4G/5G wireless communication terminal, data line or signal line transmission terminal.

In an embodiment of the invention, the determining whether the human operation has a problem based on the image information by the analysis module includes: analyzing the difference between the actual interval between the position of the dust in the image and the position of the dust hood and a preset threshold interval based on the image information by the analysis module, and when the actual interval is more than or equal to the preset threshold interval, the position of the dust hood is placed in the personnel operation process; or based on the analysis module, analyzing the distance between the image information and the position of the dust hood in the standard operation diagram library based on an image analysis algorithm, and when the distance between the position of the dust and the position of the dust hood in the image information is greater than or equal to the distance in the standard operation diagram library, the problem of dust hood position arrangement exists in the personnel operation; or based on the analysis module analyzes the area size occupied by the dust in the image information based on an image analysis algorithm, and when the dust area size is larger than or equal to the preset dust area size, the position of the dust hood is placed in the personnel operation.

In an embodiment of the present invention, the analysis module includes: the device comprises a host part, a storage part, a human-computer interaction device and a communication part; the host part takes a high-speed singlechip as a main control chip and is connected with other parts by utilizing a serial port of the singlechip; the storage part includes: random access memory, read only memory, or external memory; the man-machine interaction device is I/O equipment, and comprises: a keyboard, mouse, touch screen or monitor; the communication component comprises: 4G/5G wireless communication terminal or data line and signal line transmission terminal.

In an embodiment of the present invention, the management module includes: an operator mobile terminal and a manager mobile terminal; the operator mobile terminal includes: a GPRS locator and an information reminding receiving device; the GPRS positioner is used for acquiring position information in real time and sending the position information to the analysis module; the information reminding receiving device has the functions of information display and reminding, and can receive and display the operation instruction sent by the analysis module so as to remind a worker to correct the operation; the administrator mobile terminal comprises a display device, a rule violation analysis module and a rule violation analysis module, wherein the display device is used for receiving and displaying rule violation records and image information sent by the analysis module; the image information includes: dust diffusion status, personnel operation, and dust hood position.

As described above, the system and method for supervising the control effect of burst non-fixed point source dust according to the present invention have the following beneficial effects: the operation of the operator is supervised, the air exhaust running efficiency of the dust hood is improved, and the system has the advantages of simple installation, convenient operation, small influence on process production and the like.

Drawings

FIG. 1 is a schematic diagram of a monitoring system for monitoring the effectiveness of dust control of a burst non-stationary point source according to an embodiment of the present invention;

fig. 2 is a flow chart illustrating a method for supervising the effectiveness of burst non-fixed point source dust control according to an embodiment of the present invention.

Description of the element reference numerals

100 perception module

110 image acquisition device

120 data transmission component

200 analysis module

210 host part

220 storage component

230 human-computer interaction device

240 communication part

300 management module

310 operator mobile terminal

320 manager mobile terminal

Detailed Description

The following embodiments of the present invention are provided by way of specific examples, and other advantages and effects of the present invention will be readily apparent to those skilled in the art from the disclosure herein. The invention is capable of other and different embodiments and of being practiced or of being carried out in various ways, and its several details are capable of modification in various respects, all without departing from the spirit and scope of the present invention. It is to be noted that the features in the following embodiments and examples may be combined with each other without conflict.

It should be noted that the drawings provided in the following embodiments are only for illustrating the basic idea of the present invention, so that the components related to the present invention are only shown in the drawings rather than drawn according to the number, shape and size of the components in actual implementation, the type, quantity and proportion of the components in actual implementation can be changed freely, and the layout of the components can be more complicated.

The system and the method for supervising the control effect of the paroxysmal non-fixed point source dust implement supervision on the operation of operators, improve the operation efficiency of the exhaust of the dust hood, and have the advantages of simple system installation, convenient operation, small influence on process production and the like.

As shown in fig. 1, in one embodiment, the system for supervising the effectiveness of burst non-fixed point source dust control of the present invention comprises: a perception module 100, an analysis module 200 and a management module 300; the sensing module 100 includes: an image acquisition device 110 and a data transmission section 120; the image acquisition device 110 is used for acquiring image information of dust diffusion conditions, personnel operation and the position of the dust hood, and sending the image information to the data transmission component 120; the data transmission component 120 is configured to forward the image information to the analysis module 200; the analysis module 200 is configured to determine whether the personnel operation has a problem based on the image information, and send a violation record and/or an operation instruction to the management module 300 when the personnel operation has a problem; the management module 300 stores the violation record; and/or receiving and displaying the operation instruction. Specifically, whether the human operation has a problem is judged based on image information based on an image recognition technology.

Specifically, the image capturing device 110 is used for capturing the image information of the dust diffusion state, the personnel operation, and the position of the dust hood, and is used for capturing the image with the information of the dust diffusion state, the personnel operation, the position of the dust hood, and the like.

Specifically, the data transmission section 120 includes: 4G/5G wireless communication terminal, data line or signal line transmission terminal.

Specifically, the analyzing module 200 is configured to determine whether the human operation has a problem based on the image information, and includes: the analysis module 200 is configured to analyze a difference between an actual interval between a dust position in the image and a position of the dust hood and a preset threshold interval based on the image information, and when the actual interval is greater than or equal to the preset threshold interval, the position of the dust hood is not placed in the personnel operation. Specifically, it refers to the difference between the actual interval between the dust position and the position of the dust collection cover in the image and the preset threshold interval between the dust position and the position of the dust collection cover set in the database. That is, when the actual distance between the position of the dust in the image and the position of the dust hood exceeds a certain distance, the dust hood will have a greatly reduced suction effect, such as dust, and thus, the operation of the personnel is problematic. The analysis module 200 is configured to analyze a distance between the image information and a position of dust and a position of the dust collection cover in the standard operation diagram library based on an image analysis algorithm, and when the distance between the position of dust and the position of the dust collection cover in the image information is greater than or equal to the distance in the standard operation diagram library, the problem of placing the position of the dust collection cover exists in the operation of the personnel. Namely, the distance between the position of the dust in the image information and the position of the dust hood is compared with the distance between the position of the dust in the standard operation chart library and the position of the dust hood. Or the analysis module 200 is used for analyzing the area size occupied by dust in the image information based on an image analysis algorithm, and when the dust area size is larger than or equal to the preset dust area size, the position of the dust hood is placed in the personnel operation. Namely, a maximum area threshold value for the dust to be spread is preset, and when the area of the dust is too large, the distance between the dust suction cover and the dust position is too far, which also indicates that the personnel operation has problems. Or the human operation action has a problem, for example, when the human operation action in the image information is consistent with the wrong operation behavior in the database, the human operation action is judged to have the problem.

Specifically, the analysis module 200 includes: a host part 210, a storage part 220, a human-computer interaction device 230, and a communication part 240; the host unit 210 uses a high-speed single chip as a main control chip and is connected with other units by using a serial port of the single chip; the storage part 220 includes: random access memory, read only memory, or external memory; the human-computer interaction device 230 is an I/O device, and includes: a keyboard, mouse, touch screen or monitor; the communication unit 240 includes: 4G/5G wireless communication terminal or data line and signal line transmission terminal. The analysis module 200 receives an external command based on the human-computer interaction device 230, and performs a corresponding operation. The storage unit 220 is used for storing image information. The host unit 210 is configured to determine whether there is a problem in the human operation based on the image information, and send violation records and/or operation instructions to the management module 300 when there is a problem. The host part 210 has basic logic unit modules that can implement sequential logic functions, the logic functions can be implemented by loading programming data into internal static memory cells, and the values stored in the memory cells determine the logic functions of the logic units and the connection between the modules or between the modules and I/O devices, and finally determine the combinational logic functions that can be implemented by programming.

Specifically, the management module 300 includes: an operator mobile terminal 310 and a manager mobile terminal 320; the operator mobile terminal 310 includes: a GPRS locator and an information reminding receiving device; the GPRS positioner is used for acquiring position information in real time and sending the position information to the analysis module 200; the information reminding receiving device has the functions of information display and reminding, and can receive and display the operation instruction sent by the analysis module 200 so as to remind a worker of operation correction. Specifically, the operation instruction includes: reminding the staff to put the dust hood at the correct position, such as the specified position, or above the dust. The alerts include, but are not limited to, voice, text, image, video alerts. For example, a voice or text prompt of "you put the dust hood incorrectly and please move to the correct position" is sent out.

Specifically, the reason why the operator mobile terminal 310 sends the position information to the analysis module 200 is to enable the analysis module 200 to grasp the position of the operator in real time, so that the operator information corresponds to the violation of the operation of the operator analyzed by the analysis module 200 in a one-to-one manner, thereby achieving accurate assessment. The manager mobile terminal 320 comprises a display device for receiving and displaying violation records and image information sent by the analysis module 200; the image information includes: dust diffusion condition, personnel operation, and position of the dust hood. When the analysis module 200 is used for judging that the personnel operation has a problem based on the image information, the analysis module 200 sends the violation record of the corresponding personnel to the manager mobile terminal 320, so that synchronous management in the dust diffusion treatment process is realized; in addition, this record of violating the regulations can regard as monthly examination record, improves personnel to the operation standardization that the dust was administered from the angle of management, and then improves the non-fixed point source dust control effect of paroxysmal for this type of dust is given off and is administered in the complete cycle, guarantees to operate the relevant regulation that the surrounding environment reaches sanitary standard or environmental standard, and it is simple to have system installation, convenient operation, to advantages such as technology production influence is little.

As shown in fig. 2, in an embodiment, the method for supervising effect of burst non-fixed point source dust control according to the present invention uses a system for supervising effect of burst non-fixed point source dust control as described in any of the above, the system comprising: the system comprises a sensing module, an analysis module and a management module; the perception module comprises: the device comprises an image acquisition device and a data transmission component; the method comprises the following steps:

and step S21, collecting image information of the dust diffusion condition, the personnel operation and the position of the dust hood based on the image collecting device, and sending the image information to a data transmission component.

Step S22, forwarding the image information to an analysis module based on the data transmission component; and judging whether the personnel operation has problems or not based on the image information by the analysis module, and sending violation records and/or operation instructions to the management module when the personnel operation has problems.

Step S23, storing the violation record based on the management module; and/or receiving and displaying the operation instruction.

In an embodiment of the present invention, the data transmission unit includes: 4G/5G wireless communication terminal, data line or signal line transmission terminal.

In an embodiment of the invention, the determining whether the human operation has a problem based on the image information by the analysis module includes: analyzing the difference between the actual interval and the preset threshold interval between the position of the dust and the position of the dust hood in the image based on the image information by the analysis module, and when the actual interval is larger than or equal to the preset threshold interval, the position of the dust hood is placed in the personnel operation; or based on the analysis module, analyzing the distance between the image information and the position of the dust hood in the standard operation diagram library based on an image analysis algorithm, and when the distance between the position of the dust and the position of the dust hood in the image information is greater than or equal to the distance in the standard operation diagram library, the problem of dust hood position arrangement exists in the personnel operation; or based on the analysis module analyzes the area size occupied by dust in the image information based on an image analysis algorithm, and when the dust area size is larger than or equal to the preset dust area size, the position of the dust hood is placed in the personnel operation.

In an embodiment of the present invention, the analysis module includes: the device comprises a host part, a storage part, a human-computer interaction device and a communication part; the host part takes a high-speed singlechip as a main control chip and is connected with other parts by utilizing a serial port of the singlechip; the storage part includes: random access memory, read only memory, or external memory; the man-machine interaction device is I/O equipment, and comprises: a keyboard, mouse, touch screen or monitor; the communication component comprises: 4G/5G wireless communication terminal or data line and signal line transmission terminal.

In an embodiment of the present invention, the management module includes: an operator mobile terminal and a manager mobile terminal; the operator mobile terminal includes: a GPRS locator and an information reminding receiving device; the GPRS positioner is used for acquiring position information in real time and sending the position information to the analysis module; the information reminding receiving device has the functions of information display and reminding, and can receive and display the operation instruction sent by the analysis module so as to remind a worker to correct the operation; the manager mobile terminal comprises a display device, a rule violation analysis module and a rule violation analysis module, wherein the display device is used for receiving and displaying rule violation records and image information sent by the analysis module; the image information includes: dust diffusion status, personnel operation, and dust hood position.

It should be noted that the principle of the method corresponds to the structure of the monitoring system for the control effect of the paroxysmal non-fixed point source dust one by one, and thus, the details are not described herein again.

In conclusion, the system and the method for supervising the control effect of the burst non-fixed point source dust supervise the operation of the operators, improve the operation efficiency of the exhaust of the dust hood, and have the advantages of simple system installation, convenient operation and little influence on the process production. Therefore, the invention effectively overcomes various defects in the prior art and has high industrial utilization value.

The foregoing embodiments are merely illustrative of the principles and utilities of the present invention and are not intended to limit the invention. Any person skilled in the art can modify or change the above-mentioned embodiments without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which may be made by those skilled in the art without departing from the spirit and scope of the present invention as defined in the appended claims.

Claims (9)

1. A system for monitoring the effectiveness of a burst of non-stationary point source dust control, the system comprising: the system comprises a sensing module, an analysis module and a management module;

the sensing module comprises: the device comprises an image acquisition device and a data transmission component; the image acquisition device is used for acquiring the image information of the dust diffusion condition, the personnel operation and the position of the dust hood and sending the image information to the data transmission component; the data transmission component is used for transmitting the image information to the analysis module;

the analysis module is used for judging whether the personnel operation has problems or not based on the image information, and sending violation records and/or operation instructions to the management module when the personnel operation has problems; the analysis module is used for judging whether the personnel operation has problems or not based on the image information and comprises the following steps: the analysis module is used for analyzing the difference between the actual interval between the dust position in the image and the position of the dust hood and a preset threshold interval based on the image information, and when the actual interval is larger than or equal to the preset threshold interval, the position of the dust hood is placed in the personnel operation; or the analysis module is used for analyzing the distance between the image information and the position of the dust hood in the standard operation diagram library based on an image analysis algorithm, and when the distance between the position of the dust and the position of the dust hood in the image information is greater than or equal to the distance in the standard operation diagram library, the problem of dust hood position arrangement exists in the personnel operation; or the analysis module is used for analyzing the area size occupied by the dust in the image information based on an image analysis algorithm, and when the dust area size is larger than or equal to the preset dust area size, the position of the dust hood is placed in the operation of the personnel;

the management module stores the violation record; and/or receiving and displaying the operation instruction.

2. A paroxysmal non-fixed point source dust control effectiveness supervision system according to claim 1, characterised in that: the data transmission part includes: 4G/5G wireless communication terminal, data line or signal line transmission terminal.

3. A paroxysmal non-fixed point source dust control effectiveness supervision system according to claim 1, characterised in that: the analysis module includes: the device comprises a host part, a storage part, a human-computer interaction device and a communication part;

the host part takes a high-speed single chip microcomputer as a main control chip and is connected with other parts by utilizing a serial port of the single chip microcomputer;

the storage part includes: random access memory, read only memory, or external memory;

the man-machine interaction device is I/O equipment, and comprises: a keyboard, mouse, touch screen or monitor;

the communication component comprises: 4G/5G wireless communication terminal or data line and signal line transmission terminal.

4. A paroxysmal non-fixed point source dust control effectiveness supervision system according to claim 1, characterised in that: the management module comprises: an operator mobile terminal and a manager mobile terminal;

the operator mobile terminal includes: a GPRS locator and an information reminding receiving device; the GPRS positioner is used for acquiring position information in real time and sending the position information to the analysis module; the information reminding receiving device has the functions of information display and reminding, and can receive and display the operation instruction sent by the analysis module so as to remind a worker to correct the operation;

the manager mobile terminal comprises a display device, a rule violation analysis module and a rule violation analysis module, wherein the display device is used for receiving and displaying rule violation records and image information sent by the analysis module; the image information includes: dust diffusion condition, personnel operation, and position of the dust hood.

5. A method for supervising the control effect of paroxysmal non-fixed point source dust, which is characterized in that the system for supervising the control effect of paroxysmal non-fixed point source dust of any one of claims 1 to 4 is used for supervising the control effect of paroxysmal non-fixed point source dust, and the system comprises: the system comprises a sensing module, an analysis module and a management module; the sensing module comprises: the device comprises an image acquisition device and a data transmission component; the method comprises the following steps:

collecting image information of dust diffusion condition, personnel operation and a dust hood position based on the image collecting device, and sending the image information to a data transmission component; forwarding the image information to an analysis module based on the data transmission component;

judging whether the personnel operation has problems or not based on the image information by the analysis module, and sending violation records and/or operation instructions to a management module when the personnel operation has problems;

storing the violation record based on the management module; and/or receiving and displaying the operation instruction.

6. A method for supervising the effectiveness of dust control from a point source as defined by claim 5, wherein said data transmission means comprises: 4G/5G wireless communication terminal, data line or signal line transmission terminal.

7. The method for supervising the effect of paroxysmal non-fixed point source dust control of claim 5, wherein said determining based on said analysis module whether said personnel operation is problematic based on image information comprises:

analyzing the difference between the actual interval between the position of the dust in the image and the position of the dust hood and a preset threshold interval based on the image information by the analysis module, and when the actual interval is more than or equal to the preset threshold interval, the position of the dust hood is placed in the personnel operation process;

or based on the analysis module, analyzing the distance between the image information and the position of the dust hood in the standard operation diagram library based on an image analysis algorithm, and when the distance between the position of the dust and the position of the dust hood in the image information is greater than or equal to the distance in the standard operation diagram library, the problem of dust hood position arrangement exists in the personnel operation;

or based on the analysis module analyzes the area size occupied by the dust in the image information based on an image analysis algorithm, and when the dust area size is larger than or equal to the preset dust area size, the position of the dust hood is placed in the personnel operation.

8. The method of episodic non-stationary point source dust control effectiveness supervision according to claim 5, wherein said analysis module comprises: the device comprises a host part, a storage part, a human-computer interaction device and a communication part;

the host part takes a high-speed singlechip as a main control chip and is connected with other parts by utilizing a serial port of the singlechip;

the storage part includes: random access memory, read only memory, or external memory;

the man-machine interaction device is I/O equipment, and comprises: a keyboard, mouse, touch screen or monitor;

the communication component comprises: 4G/5G wireless communication terminal or data line and signal line transmission terminal.

9. The method of episodic non-stationary point source dust control effectiveness supervision according to claim 5, wherein said management module comprises: an operator mobile terminal and a manager mobile terminal;

the operator mobile terminal includes: a GPRS locator and an information reminding receiving device; the GPRS positioner is used for acquiring position information in real time and sending the position information to the analysis module; the information reminding receiving device has the functions of information display and reminding, and can receive and display the operation instruction sent by the analysis module so as to remind a worker to correct the operation;

the administrator mobile terminal comprises a display device, a rule violation analysis module and a rule violation analysis module, wherein the display device is used for receiving and displaying rule violation records and image information sent by the analysis module; the image information includes: dust diffusion status, personnel operation, and dust hood position.

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