CN114419866A - Intelligent dispatching system and method for gas mines based on operational research optimization - Google Patents

Abstract

The gas mine intelligent scheduling system based on operation and research optimization comprises a task scheduling module, a mobile terminal, a management terminal, a control module, a task scheduling module, an information acquisition module, a monitoring module, a safety production database and an on-duty database; the task scheduling module is wirelessly connected with the mobile terminal and the management terminal, a communication port of the task scheduling module is connected with a communication port of the control module, a second communication port of the control module is connected with a first communication port of the monitoring module, a first storage port of the task scheduling module is connected with the on-duty database, a second storage port of the task scheduling module is connected with the safety production database, the monitoring module is wirelessly connected with the control module, and the information acquisition module is wirelessly connected with the monitoring module. The mine equipment scheduling system is simple in overall structure, plan circulation of mine equipment is achieved, the task scheduling platform and the monitoring system are arranged, routing inspection tasks can be automatically pushed, and the condition that equipment loss is too fast due to missing inspection caused by traditional manual routing inspection is avoided.

Description

Intelligent dispatching system and method for gas mines based on operational research optimization

technical field

The invention relates to the field of dispatching systems, in particular to an intelligent dispatching system and method for gas mines based on operational research optimization.

Background technique

Since the development of the coal mining industry, safety accidents still occur from time to time. At present, coal mine management has the following problems: the information system is relatively closed, there is information asymmetry between departments and district teams, and many data technology departments know about it but the district teams don't; mine safety depends on management and technical means. In recent years, coal mines have been working hard on production safety and management, but there is no necessary technical means to ensure that, no matter how strict the management is, it is difficult to ensure that no accidents are prevented, and it is difficult to ensure the safety of personnel.

The global mining industry is going through a new revolution, and technologies such as big data, artificial intelligence, and the Internet of Things are becoming more and more closely integrated with mines. The mine production model is constantly being updated, and the mining industry is developing in the direction of scale, intensification, and synergy, and has begun to enter a new stage of intelligence. As an important direction of green mine construction, intelligence can only be achieved through intelligent and intelligent maintenance arrangements. Only then can accidents be avoided, the production efficiency and safety level can be greatly improved, and the goals of intrinsically safe mines, happy mines and harmonious mines can be fundamentally realized. Intelligence is the only best way to improve production efficiency and safety efficiency.

In terms of safety production in coal mines, on the one hand, during maintenance, it is all manually arranged to find people for inspection, without even training or systematic inspections. At the same time, after using tools for each inspection, tools are often lost on the site. , the tool management is chaotic, and it is not known who borrows it, which affects safety and production. Therefore, in order to solve the above problems, a new system is needed for management.

SUMMARY OF THE INVENTION

Aiming at the deficiencies of the prior art, the present invention proposes an intelligent dispatching system and method for gas mines based on operational research optimization.

Among them, the specific technical solutions of the intelligent dispatching system for gas mines based on operational research optimization are as follows:

The intelligent dispatching system for gas mines based on operational research optimization is characterized in that: it includes a task dispatching module, a mobile terminal, a management terminal, a control module, a task dispatching module, an information collection module, a monitoring module, a safety production database and a duty database;

The task scheduling module is wirelessly connected to the mobile terminal and the management terminal, the communication port of the task scheduling module is connected to the communication port of the control module, the second communication port of the control module is connected to the first communication port of the monitoring module Connected, the first storage port of the task scheduling module is connected to the duty database, the second storage port of the task scheduling module is connected to the safety production database, the monitoring module is wirelessly connected to the control module, and the information collection module is connected to The monitoring modules are wirelessly connected.

Further: an alarm module is provided, and the alarm module is connected with the control module.

Further: a video monitoring system is provided, and the video monitoring system is connected with the control module.

Among them, the technical solution for the workflow of the intelligent dispatching system for gas mines based on operational research optimization is:

The working process of the intelligent dispatching system for gas mines based on operational research optimization is characterized in that it includes the following steps:

S1: An information collection module is installed on each device, and the information collection module collects device parameter information and sends it to the monitoring module;

S2: a monitoring module, the monitoring module monitors the device parameter information in real time, if the monitoring module monitors that the device information is abnormal, then goes to step S3, otherwise, goes to step S6;

S3: The monitoring module sends the abnormal device information to the processing module, the processing module forwards the abnormal device information to the task scheduling module, the task scheduling module extracts the on-duty personnel from the on-duty database, and the task scheduling module manages and controls the equipment to be inspected and the on-duty personnel. match;

The task scheduling module generates an emergency maintenance instruction, and the task scheduling module sends the emergency maintenance instruction and the safety manual to the corresponding mobile terminal;

S4: After the maintenance personnel read the safety manual on the mobile terminal and complete the confirmation of the precautions, the mobile terminal returns the confirmation file to the task scheduling module, and the task scheduling module archives the confirmation file;

S5: The maintenance personnel scan the tools through the mobile terminal, and the material management module records the maintenance personnel and the borrowed tools;

S6: The task scheduling module sorts according to the maintenance date of the equipment, the task scheduling module determines to extract the on-duty personnel from the on-duty database, the task scheduling module generates a plan inspection instruction, and the task scheduling module sends the plan inspection instruction to the corresponding mobile terminal;

S7: After checking the equipment, the staff sends an inspection report to the task scheduling module through the mobile terminal;

S8: A safety production database is set up, and the daily task scheduling system regularly sends the hidden danger data uploaded the previous day to the mobile terminal and the management terminal.

The beneficial effects of the invention are as follows: the overall structure is simple, the invention realizes the planning cycle of the equipment on the mine, and can automatically push the inspection tasks by setting up a task scheduling platform and a monitoring system, avoiding the traditional manual arrangement of inspection tasks. At the same time, it automatically pushes safety hazard investigation analysis reports and precautions every day, which reduces the occurrence of safety accidents and changes the simple and extensive traditional management mode of coal mines in the past, from passive management to active management and post-event management. The treatment is pre-emptive; the team members in the production area can grasp the situation of gas and equipment start and stop in real time. Solved the long-term problem of information inversion between coal production units and higher-level supervision departments.

Description of drawings

1 is a system block diagram of the present invention;

Figure 2 is a flow chart of the present invention.

Detailed ways

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only a part of the embodiments of the present invention, but not all of the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without creative efforts shall fall within the protection scope of the present invention.

As shown in Figure 1, the specific technical scheme of the intelligent dispatching system for gas mines based on operational research optimization is as follows:

The intelligent dispatching system for gas mines based on operational research optimization includes task dispatching module, mobile terminal, management terminal, control module, task dispatching module, information collection module, monitoring module, safety production database and duty database;

The task scheduling module is wirelessly connected to the mobile terminal and the management terminal, the communication port of the task scheduling module is connected to the communication port of the control module, the second communication port of the control module is connected to the first communication port of the monitoring module Connected, the first storage port of the task scheduling module is connected to the duty database, the second storage port of the task scheduling module is connected to the safety production database, the monitoring module is wirelessly connected to the control module, and the information collection module is connected to The monitoring modules are wirelessly connected.

Further: an alarm module is provided, and the alarm module is connected with the control module.

Further: a video monitoring system is provided, and the video monitoring system is connected with the control module.

Among them, the technical solution for the workflow of the intelligent dispatching system for gas mines based on operational research optimization is:

As shown in Figure 2, the workflow of the intelligent dispatching system for gas mines based on operational research optimization includes the following steps:

S1: An information collection module is installed on each device, and the information collection module collects device parameter information and sends it to the monitoring module;

S2: a monitoring module, the monitoring module monitors the device parameter information in real time, if the monitoring module monitors that the device information is abnormal, then goes to step S3, otherwise, goes to step S6;

S3: The monitoring module sends the abnormal device information to the processing module, the processing module forwards the abnormal device information to the task scheduling module, the task scheduling module extracts the on-duty personnel from the on-duty database, and the task scheduling module manages and controls the equipment to be inspected and the on-duty personnel. match;

The task scheduling module generates an emergency maintenance instruction, and the task scheduling module sends the emergency maintenance instruction and the safety manual to the corresponding mobile terminal;

S4: After the maintenance personnel read the safety manual on the mobile terminal and complete the confirmation of the precautions, the mobile terminal returns the confirmation file to the task scheduling module, and the task scheduling module archives the confirmation file;

S5: The maintenance personnel scan the tools through the mobile terminal, and the material management module records the maintenance personnel and the borrowed tools;

S6: The task scheduling module sorts according to the maintenance date of the equipment, the task scheduling module determines to extract the on-duty personnel from the on-duty database, the task scheduling module generates a plan inspection instruction, and the task scheduling module sends the plan inspection instruction to the corresponding mobile terminal;

S7: After checking the equipment, the staff sends an inspection report to the task scheduling module through the mobile terminal;

S8: A safety production database is set up, and the daily task scheduling system regularly sends the hidden danger data uploaded the previous day to the mobile terminal and the management terminal.

It will be apparent to those skilled in the art that the present invention is not limited to the details of the above-described exemplary embodiments, but that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics of the invention. Therefore, the embodiments are to be regarded in all respects as illustrative and not restrictive, and the scope of the invention is to be defined by the appended claims rather than the foregoing description, which are therefore intended to fall within the scope of the claims. All changes within the meaning and range of the equivalents of , are included in the present invention. Any reference signs in the claims shall not be construed as limiting the involved claim.

In addition, it should be understood that although this specification is described in terms of embodiments, not each embodiment only includes an independent technical solution, and this description in the specification is only for the sake of clarity, and those skilled in the art should take the specification as a whole , the technical solutions in each embodiment can also be appropriately combined to form other implementations that can be understood by those skilled in the art.

Claims (4)

1. The intelligent dispatching system for gas mines based on operational research optimization, is characterized in that: comprising a task dispatching module, a mobile terminal, a management terminal, a control module, a task dispatching module, an information collection module, a monitoring module, a safety production database and a duty database; The task scheduling module is wirelessly connected to the mobile terminal and the management terminal, the communication port of the task scheduling module is connected to the communication port of the control module, the second communication port of the control module is connected to the first communication port of the monitoring module Connected, the first storage port of the task scheduling module is connected to the duty database, the second storage port of the task scheduling module is connected to the safety production database, the monitoring module is wirelessly connected to the control module, and the information collection module is connected to The monitoring modules are wirelessly connected. 2 . The intelligent dispatching system for gas mines based on operational research optimization according to claim 1 , wherein an alarm module is provided, and the alarm module is connected with the control module. 3 . 3. The intelligent dispatching system for gas mines based on operational research optimization according to claim 2, characterized in that: a video monitoring system is provided, and the video monitoring system is connected with the control module. 4. The workflow of the intelligent dispatching system for gas mines based on operational research optimization is characterized in that: it comprises the following steps: S1: An information collection module is installed on each device, and the information collection module collects device parameter information and sends it to the monitoring module; S2: a monitoring module, the monitoring module monitors the device parameter information in real time, if the monitoring module monitors that the device information is abnormal, then goes to step S3, otherwise, goes to step S6; S3: The monitoring module sends the abnormal device information to the processing module, the processing module forwards the abnormal device information to the task scheduling module, the task scheduling module extracts the duty personnel from the duty database, and the task scheduling module manages and controls the equipment to be inspected and the duty personnel. match; The task scheduling module generates an emergency maintenance instruction, and the task scheduling module sends the emergency maintenance instruction and the safety manual to the corresponding mobile terminal; S4: After the maintenance personnel read the safety manual on the mobile terminal and complete the confirmation of the precautions, the mobile terminal returns the confirmation file to the task scheduling module, and the task scheduling module archives the confirmation file; S5: The maintenance personnel scan the tools through the mobile terminal, and the material management module records the maintenance personnel and the borrowed tools; S6: The task scheduling module sorts according to the maintenance date of the equipment, the task scheduling module determines to extract the on-duty personnel from the on-duty database, the task scheduling module generates a plan inspection instruction, and the task scheduling module sends the plan inspection instruction to the corresponding mobile terminal; S7: After checking the equipment, the staff sends an inspection report to the task scheduling module through the mobile terminal; S8: A safety production database is set up, and the daily task scheduling system regularly sends the hidden danger data uploaded the previous day to the mobile terminal and the management terminal.

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