CN112884295A - Mine personnel movement management and control method and system based on Internet of things technology - Google Patents

Abstract

The invention discloses a mine personnel movement management and control method and system based on the technology of Internet of things, which comprises the following steps: collecting real-time data of a mine production system; sending the collected real-time data of the mine production system to a cloud server for analysis and processing to obtain production condition information of a fully mechanized mining face of the mine production system; and the production condition information of the fully mechanized mining face of the mine production system is sent to the mobile terminal, and a user of the mobile terminal adjusts the number of production teams or the number of overhaul teams and equipment conditions in real time according to the production condition information of the fully mechanized mining face of the mine production system. The invention can monitor the working conditions of coal mine production and various system devices in real time, and efficiently schedule management work and decision command.

Description

Mine personnel movement management and control method and system based on Internet of things technology

Technical Field

The invention belongs to the technical field of mine management, and particularly relates to a mine personnel movement management and control method and system based on the technology of Internet of things.

Background

Due to the complex production process of the fully mechanized mining face, the huge system of the fully mechanized mining equipment, the complex operation conditions of each equipment, the multiple actions and the high requirements on the action sequence, the accuracy and the response speed, the control modes of each equipment are dispersed for the monitoring and the management, the rapid and accurate matching cannot be realized, the performance of the equipment cannot be fully exerted, and the production efficiency is low. And the automatic system of the fully mechanized mining face takes the process control as the core, is disjointed with the production management process, does not realize the information integration and intercommunication in high efficiency and real time, can not effectively manage the fully mechanized mining key equipment, and can not provide the decision and suggestion for the production manager.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a mine personnel movement management and control method and system based on the technology of the Internet of things, which can monitor the working conditions of coal mine production and various system devices in real time and efficiently schedule management work and make decisions and commands.

In order to solve the technical problems, the invention is realized by the following technical scheme:

a mine personnel movement management and control method based on the Internet of things technology comprises the following steps:

collecting real-time data of a mine production system;

sending the collected real-time data of the mine production system to a cloud server for analysis and processing to obtain production condition information of a fully mechanized mining face of the mine production system;

and the production condition information of the fully mechanized mining face of the mine production system is sent to the mobile terminal, and a user of the mobile terminal adjusts the number of production teams or the number of overhaul teams and equipment conditions in real time according to the production condition information of the fully mechanized mining face of the mine production system.

Further, the real-time data of the mine production system comprises equipment information, personnel work task information and task completion feedback information.

Further, the collected real-time data of the mine production system is sent to a cloud server for analysis and processing, and the method specifically comprises the following steps: and analyzing the equipment information, the personnel work task information and the task completion feedback information, performing library division, and performing correlation and result analysis among libraries.

And further, transmitting the acquired real-time data of the mine production system to a cloud server through an industrial Ethernet.

Further, the mobile terminal mainly realizes role authority hierarchical classification, mobile monitoring, work management and report statistics.

The utility model provides a mine personnel remove management and control system based on internet of things, includes:

the fully mechanized mining system is used for acquiring real-time data of the mine production system;

the cloud server is used for receiving and acquiring the real-time data of the mine production system, analyzing and processing the acquired real-time data of the mine production system and obtaining the production condition information of the fully mechanized mining face of the mine production system;

and the mobile terminal is used for receiving the production condition information of the fully mechanized mining face of the mine production system, and the user adjusts the number of production teams or the number of overhaul teams and equipment conditions in real time according to the production condition information of the fully mechanized mining face of the mine production system.

Compared with the prior art, the invention has at least the following beneficial effects: according to the mine personnel movement management and control method based on the Internet of things technology, provided by the invention, the working conditions of coal mine production and various system devices can be monitored in real time by a PC (personal computer) end, a webpage and a mobile end (a mobile phone, a tablet and the like) at any time and any place on the premise of ensuring production safety, network safety and data safety by managers and technical engineers, and the management work and decision and command are efficiently scheduled. That is to say, the working conditions of coal mine production and various system devices can be monitored in real time, and the work of dispatching management and decision making and commanding are efficient.

In order to make the aforementioned and other objects, features and advantages of the present invention comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic diagram of the overall application of the intelligent management platform.

Fig. 2 is a schematic diagram of the overall architecture of the intelligent management platform system.

FIG. 3 is a technical framework diagram of a cloud service platform.

Fig. 4 is an application schematic diagram of an intelligent fully mechanized mining platform.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings, and it is apparent that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention relates to a mine personnel movement management and control method based on the Internet of things technology, which comprises the following steps:

and collecting real-time data of the mine production system, wherein the real-time data of the mine production system comprises equipment information, personnel work task information and task completion feedback information.

Sending the collected real-time data of the mine production system to a cloud server through an industrial Ethernet for analysis and processing to obtain the production condition information of the fully mechanized mining face of the mine production system; the method specifically comprises the following steps: and analyzing the equipment information, the personnel work task information and the work task completion feedback information, performing library division, correlation among libraries and result analysis, and finally obtaining the production condition information of the fully mechanized mining face of the mine production system.

And the production condition information of the fully mechanized mining face of the mine production system is sent to the mobile terminal, and a user of the mobile terminal adjusts the number of production teams or the number of overhaul teams and equipment conditions in real time according to the production condition information of the fully mechanized mining face of the mine production system. That is to say, the production condition of the fully mechanized mining face is monitored in real time through the mobile terminal, the number of production team personnel or the number of overhaul team personnel and the condition of equipment are adjusted in real time according to the feedback condition of the production condition information (yield, equipment statistics and environmental pre-planning) of the fully mechanized mining face of the mine production system, and the production progress is guaranteed.

Because each mine has an annual production plan, the annual production plan is decomposed into a monthly and daily production plan according to actual equipment and personnel conditions; mine production is in a shift system, namely, daily plans need to be arranged for each team, when one production team does not complete the plan target, the production target of the next team needs to be adjusted, and the completion of the daily task is ensured by calling personnel and equipment; production teams and overhaul teams are different because of personnel division work, therefore each team number is different, and here will remove the management and control to personnel and equipment according to actual production situation, guarantees the safety high efficiency of production.

The utility model provides a mine personnel remove management and control system based on internet of things, includes:

the fully mechanized mining system is used for acquiring real-time data of the mine production system;

the cloud server is used for receiving and acquiring the real-time data of the mine production system, analyzing and processing the acquired real-time data of the mine production system and obtaining the production condition information of the fully mechanized mining face of the mine production system;

and the mobile terminal is used for receiving the production condition information of the fully mechanized mining face of the mine production system, and the user adjusts the number of production teams or the number of overhaul teams and equipment conditions in real time according to the production condition information of the fully mechanized mining face of the mine production system.

One specific embodiment of the present invention is as follows:

and (4) an intelligent fully-mechanized mining management platform is built, and the fully-mechanized mining data information of the mine is integrated.

The data center is utilized to carry out data acquisition, cloud database storage and cloud computing processing on the intelligent fully mechanized mining platform; the data processing mainly comprises data fusion, data integration, data extraction, data cleaning and data filtering.

And a RichHadoop distributed computing framework and a RichStreaming flow computing framework are used, and mature components such as hive, hbase and the like are integrated to convert and release standard data (processed data) to a cloud service platform to realize connection between the data and mobile terminal services, so that cross-platform data interaction is completed.

The cloud service platform provides cloud data center service for the mobile application, the cloud database receives data provided by the intelligent fully-mechanized mining platform of the dispatching center, data conversion is achieved through the cloud data center, historical data query of the mobile terminal application, result analysis and sharing and other interactive applications are achieved through an MQTT protocol.

The mobile application is registered in the cloud platform server, and the cloud server pushes data, so that real-time updating of the mobile terminal data is realized.

The mobile terminal mainly realizes role authority hierarchical classification, mobile monitoring, work management and report statistics.

The mine fully-mechanized mining information is integrated together through the intelligent fully-mechanized mining management platform, the informatization construction of the mine is transited to the intelligent application stage, and more thorough perception, omnibearing communication and high intelligence can be achieved. The intelligent fully-mechanized coal mining management platform mainly comprises an intelligent fully-mechanized coal mining platform, cloud service platform construction and mobile application.

1) Intelligent fully mechanized mining platform

(1) Data communication acquisition and storage

The intelligent fully-mechanized mining platform issues data to a data center through data acquisition, local storage and data analysis of the existing fully-mechanized mining monitoring system.

According to a communication protocol designed by a user-defined mode, the data center carries out data acquisition, cloud database storage and cloud computing processing on the intelligent fully-mechanized mining platform, is a platform of field data analysis technology, and is released to a cloud service platform through data conversion, so that connection of data and mobile terminal services is realized, and cross-platform data interaction is completed.

An information channel from the data to the cloud can be established through the platform.

(2) Information security architecture

The platform establishes an information security system in the data transmission, processing and storage processes, and the management platform enables the processed data to pass through a multilayer protection mechanism: firstly, the data is safe, multiple encryption is carried out on the data for active protection, and the data is sent to a cloud service platform after bidirectional strong identity authentication, so that the confidentiality and the integrity of the data are ensured; and secondly, the data protection safety is realized, the data is actively protected by adopting a cloud database storage means, and the data safety of a server is ensured by means of a cloud disk array, cloud data backup, remote disaster recovery and the like.

2) Cloud service platform

The cloud service platform provides cloud data center service for the mobile application, the mobile application is registered in the cloud platform server, the cloud server pushes data, real-time updating of mobile terminal data is achieved to monitor fully-mechanized mining information in real time, historical data can be inquired at any time under the support of cloud computing under the big data platform, and data analysis results are fed back.

The cloud service platform stores data through a data center deployed on a cloud server, the cloud database receives data provided by an intelligent fully-mechanized mining platform of a dispatching center, data conversion is achieved through the cloud data center, historical data query of mobile terminal application, result analysis sharing and other interactive applications are achieved through an MQTT protocol. Meanwhile, the data storage structure realizes the redundant backup of a master database and a slave database through the database middleware, and ensures the stability of data and the expansibility of big data analysis.

3) Mobile application

(1) Hierarchical hierarchy of role permissions

And carrying out authority hierarchical setting on the user roles in the application according to the management level and the job functions of the worker posts, and configuring different authorities for application operation on different roles.

(2) Function of mobile monitoring

The mobile terminal has the functions of monitoring real-time comprehensive working condition preview, fully mechanized mining key information, one-key starting record, violation operation record, fault summary, operation summary and the like.

(3) Work management

1. The enterprise daily newspaper can be checked and forwarded.

2. The person with authority can search and check the knowledge base.

3. The work report includes a work daily report, a work weekly report, and a work monthly report. The leader has the examination right of work report and simultaneously comprises list browsing, detailed information, classified query and history.

4. The work report is filled in through a set template, the work report comprises a production class report template and an overhaul version report template, and the template can be edited in the background.

5. The task allocation is operated by a shift leader with shifts, the class of the shifts can be set, roll calls are carried out on the members of the shifts, the tasks are allocated after the working surfaces of the personnel on site are divided, the personnel allocated with the tasks can receive the message prompt, and the task template is configured in the background.

(4) Statistical report

1. Production curve diagram

And analyzing the production process, and displaying the production curve chart according to the time of day, week and month.

2. Statistics of yield

And counting the work report content of the work attendant (according to days/months), and drawing a yield histogram.

3. Fault and alarm statistics

And counting the proportion of various alarms and faults in total data in a time period, and drawing a pie chart of various alarms and faults (the faults and the alarm data are provided by the mine group server).

Finally, it should be noted that: the above-mentioned embodiments are only specific embodiments of the present invention, which are used for illustrating the technical solutions of the present invention and not for limiting the same, and the protection scope of the present invention is not limited thereto, although the present invention is described in detail with reference to the foregoing embodiments, those skilled in the art should understand that: any person skilled in the art can modify or easily conceive the technical solutions described in the foregoing embodiments or equivalent substitutes for some technical features within the technical scope of the present disclosure; such modifications, changes or substitutions do not depart from the spirit and scope of the embodiments of the present invention, and they should be construed as being included therein. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (6)

1. A mine personnel movement management and control method based on the Internet of things technology is characterized by comprising the following steps:

collecting real-time data of a mine production system;

sending the collected real-time data of the mine production system to a cloud server for analysis and processing to obtain production condition information of a fully mechanized mining face of the mine production system;

and the production condition information of the fully mechanized mining face of the mine production system is sent to the mobile terminal, and a user of the mobile terminal adjusts the number of production teams or the number of overhaul teams and equipment conditions in real time according to the production condition information of the fully mechanized mining face of the mine production system.

2. The mine personnel movement management and control method based on the internet of things technology as claimed in claim 1, wherein the mine production system real-time data comprises equipment information, personnel work task information and work task completion feedback information.

3. The mine personnel movement management and control method based on the internet of things technology as claimed in claim 2, wherein the collected mine production system real-time data is sent to a cloud server for analysis and processing, and specifically comprises the following steps: and analyzing the equipment information, the personnel work task information and the task completion feedback information, performing library division, and performing correlation and result analysis among libraries.

4. The mine personnel movement management and control method based on the internet of things technology as claimed in claim 1, wherein the collected mine production system real-time data is sent to a cloud server through an industrial Ethernet.

5. The mine personnel movement management and control method based on the internet of things technology as claimed in claim 1, wherein the mobile terminal mainly realizes role authority hierarchical classification, movement monitoring, work management and report statistics.

6. The utility model provides a mine personnel remove management and control system based on internet of things, its characterized in that includes:

the fully mechanized mining system is used for acquiring real-time data of the mine production system;

the cloud server is used for receiving and acquiring the real-time data of the mine production system, analyzing and processing the acquired real-time data of the mine production system and obtaining the production condition information of the fully mechanized mining face of the mine production system;

and the mobile terminal is used for receiving the production condition information of the fully mechanized mining face of the mine production system, and the user adjusts the number of production teams or the number of overhaul teams and equipment conditions in real time according to the production condition information of the fully mechanized mining face of the mine production system.

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