CN111485950A - Multi-platform alarm linkage method, system and alarm device for mine - Google Patents

Abstract

The invention discloses a multi-platform alarm linkage method, a multi-platform alarm linkage system and an alarm device for a mine. The multi-platform alarm linkage method for the mine comprises the following steps: the alarm linkage plan is stored through a database server, the alarm linkage plan from the database server is read through a linkage data processing unit, the linkage data processing unit collects monitoring data of a mine comprehensive automation monitoring unit, and the linkage data processing unit compares the monitoring data with a linkage plan triggering condition and a linkage plan triggering value in the alarm linkage plan to judge whether the triggering condition is established or not so as to carry out linkage alarm. The invention can comprehensively know the related information of the alarm point at the first time when the alarm occurs.

Description

Multi-platform alarm linkage method, system and alarm device for mine

Technical Field

The invention relates to the technical field of comprehensive automatic alarm of mines, in particular to a multi-platform alarm linkage method, a multi-platform alarm linkage system and an alarm device for a mine.

Background

With the rapid development of networks, 3G, 4G, wireless networks and the like have covered every corner of mine construction, and almost all coal-safety mobile phones and common mobile phones can be connected to a mine ring network through the networks for data interaction.

However, in the aspect of alarm linkage of a mine integrated automation system, the current situation of use is mostly realized on a PC platform, and still an alarm mode in configuration software is used, or local alarm is performed on an operation host through special alarm linkage software, the alarm mode completely depends on judgment and processing of an alarm event by a dispatcher, and then alarm information is transmitted to a branch management leader, a maintenance department and a maintenance personnel in the forms of telephone, WeChat and the like, and after receiving the alarm information, relevant personnel can know the site situation only in a dispatching room or an alarm site, and cannot comprehensively know relevant information of an alarm point at the first time of alarm occurrence, so that improvement is urgently needed.

Disclosure of Invention

In view of the above disadvantages of the prior art, an object of the present invention is to provide a multi-platform alarm linkage method, system and alarm device for a mine, which are used to solve the problems that in the prior art, the alarm event is completely judged and processed by a dispatcher, and then the alarm information is transmitted to a branch management leader, a maintenance department and a maintainer in the form of a telephone, a WeChat, etc., and after receiving the alarm information, the relevant personnel need to go to a dispatching room or an alarm site to know the site situation, and cannot comprehensively know the relevant information of the alarm point at the first time when the alarm occurs.

In order to achieve the above objects and other related objects, the present invention provides a multi-platform alarm linkage method for a mine, including:

storing an alarm linkage plan through a database server;

reading an alarm linkage plan from the database server through a linkage data processing unit;

the linkage data processing unit acquires monitoring data of the mine comprehensive automatic monitoring unit;

the linkage data processing unit compares the monitoring data with a linkage plan triggering condition and a linkage plan triggering value in the alarm linkage plan to judge whether the triggering condition is satisfied; and if the linkage plan number in the alarm linkage plan is not processed, the monitoring data and the linkage plan number in the alarm linkage plan are sent to a data synchronization unit to carry out linkage alarm.

In an embodiment of the present invention, the step of performing the linkage alarm includes:

the data synchronization unit forwards the monitoring data and the linkage plan number in the alarm linkage plan to a first data service unit and a second data service unit;

the first data service unit generates execution data so as to forward the execution data to the second data service unit and the linkage data processing unit through a data synchronization unit;

the linkage data processing unit inquires an execution plan trigger point label name and an execution plan trigger point preset value in the alarm linkage plan according to a linkage plan number in the alarm linkage plan corresponding to execution data;

and the mine comprehensive automatic monitoring unit issues an execution plan trigger point preset value to an execution plan trigger point signature in the alarm linkage plan corresponding to the execution data.

In an embodiment of the present invention, the alarm linkage plan includes a linkage plan number, a linkage plan name, a linkage plan trigger point tag name, a linkage plan trigger condition, a linkage plan trigger value, an execution plan trigger point tag name, an execution plan trigger point preset value, and a function module number.

In an embodiment of the present invention, the step of performing the linkage alarm further includes:

the first data service unit packs the monitoring data to generate packed first monitoring data;

and the first data service unit forwards the packaged first monitoring data to a first client unit for the first client unit to inquire.

In an embodiment of the present invention, the step of performing the linkage alarm further includes:

the second data service unit packs the monitoring data to generate packed second monitoring data;

and sending the packaged second monitoring data to a second client unit through a permission authentication unit so as to be inquired by the second client unit.

In an embodiment of the present invention, the multi-platform alarm linkage method for a mine further includes:

and configuring the alarm linkage plan through an alarm linkage configuration tool unit.

In an embodiment of the present invention, the execution data is forwarded to the second data service unit through the data synchronization unit according to an operator number, an execution time, and an execution plan trigger point signature.

The invention also provides a multi-platform alarm linkage system for a mine, which comprises:

the database server is used for storing the alarm linkage plan;

the linkage data processing unit is used for reading an alarm linkage plan from the database server;

the linkage data processing unit is used for acquiring monitoring data of the mine comprehensive automatic monitoring unit;

the linkage data processing unit is used for comparing the monitoring data with a linkage plan triggering condition and a linkage plan triggering value in the alarm linkage plan so as to judge whether the triggering condition is satisfied; and if the linkage plan number in the alarm linkage plan is not processed, the monitoring data and the linkage plan number in the alarm linkage plan are sent to a data synchronization unit to carry out linkage alarm.

In an embodiment of the present invention, the multi-platform alarm linkage system for a mine further includes:

and the alarm linkage configuration tool unit is used for configuring the alarm linkage plan.

The invention also provides an alarm device for a mine, comprising:

a multi-platform alarm linkage system for a mine, the multi-platform alarm linkage system for a mine comprising:

the database server is used for storing the alarm linkage plan;

the linkage data processing unit is used for reading an alarm linkage plan from the database server;

the linkage data processing unit is used for acquiring monitoring data of the mine comprehensive automation monitoring unit, and comparing the monitoring data with linkage plan triggering conditions and linkage plan triggering values in the alarm linkage plan to judge whether the triggering conditions are met; if yes, sending the monitoring data and a linkage plan number in the alarm linkage plan to a data synchronization unit for linkage alarm, and if not, not processing the monitoring data;

the first data service unit is in communication connection with the data synchronization unit and the first client unit;

the second data service unit is in communication connection with the data synchronization unit and the authority authentication unit;

the second client unit is in communication connection with the authority authentication unit;

the computer terminals are respectively in communication connection with the first data service unit and the first client unit;

the mobile terminals are respectively in communication connection with the second data service unit and the second client unit;

and the monitoring terminals are in communication connection with the mine integrated automation monitoring unit.

As described above, the multi-platform alarm linkage method, system and alarm device for the mine of the present invention have the following beneficial effects:

the invention can comprehensively know the related information of the alarm point at the first time when the alarm occurs, can provide the operation data of alarm linkage on multiple platforms by a standard and efficient method, accurately executes the corresponding linkage requirement, and solves the problem of transmission of the alarm linkage information of the last station.

The invention can send the fault alarm information to the working surface site, is convenient for site workers to know the site alarm information in time, and can carry out voice interaction with the site.

The invention can provide the state condition of the fault alarm point and the video information of the alarm site and simultaneously provide the linkage execution issuing authority.

Drawings

Fig. 1 is a schematic structural block diagram of a multi-platform alarm linkage system for a mine according to an embodiment of the present disclosure.

Fig. 2 is a schematic structural block diagram of an alarm device for a mine according to an embodiment of the present application.

Fig. 3 is a schematic structural block diagram of a first client unit of a multi-platform alarm linkage system for a mine according to an embodiment of the present disclosure.

Fig. 4 is a schematic structural block diagram of a second client unit of a multi-platform alarm linkage system for a mine according to an embodiment of the present disclosure.

Fig. 5 is a flowchart of a multi-platform alarm linkage method for a mine according to an embodiment of the present application.

Fig. 6 is a flowchart of the operation of step S5 of the multi-platform alarm linkage method for a mine in fig. 5 according to the embodiment of the present application.

Description of the element reference numerals

1 mine comprehensive automatic monitoring unit

2 linkage data processing unit

3 data synchronization unit

4 first data service unit

5 second data service Unit

6 authority authentication unit

7 database server

8 alarm linkage configuration tool unit

9 first client unit

10 second client unit

91 first video Unit

92 first speech unit

93 first linkage unit

100 computer terminal

101 second video unit

102 second speech unit

103 second linkage unit

110 mobile terminal

120 monitor terminal

Detailed Description

The embodiments of the present invention are described below with reference to specific embodiments, and other advantages and effects of the present invention will be easily understood by those skilled in the art from the disclosure of the present specification. 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, and the drawings only show the components related to the present invention rather than the number, shape and size of the components in actual implementation, and the type, quantity and proportion of the components in actual implementation may be changed freely, and the layout of the components may be more complicated.

Referring to fig. 5, fig. 5 is a working flow chart of a multi-platform alarm linkage method for a mine according to an embodiment of the present invention, the multi-platform alarm linkage method for a mine is applicable to a mine, bottom data acquisition of the multi-platform alarm linkage method for a mine uses a standard OPC (O L E for Process Control) protocol to communicate with each monitoring terminal 120 or monitoring subsystem in a mine integrated automation monitoring unit 1, the multi-platform alarm linkage method for a mine uses a unified communication protocol, a unified interface, and a unified coding method to achieve diversified alarm linkage requirements, and the multi-platform alarm linkage method for a mine achieves multi-platform alarm linkage of alarm linkage, and solves the problem of transmission of alarm linkage information of a last station.

As shown in fig. 5, the multi-platform alarm linkage method for the mine comprises the following steps: and step S0, configuring the alarm linkage plan through the alarm linkage configuration tool unit 8. Specifically, the alarm linkage configuration tool unit 8 arranges an alarm linkage plan according to the alarm linkage execution flow of the alarm data points, and provides a corresponding trigger module according to the type of the collected alarm data points: comparing the switching value with or; and comparing the analog quantity. Providing a corresponding execution module for linkage plan execution: setting an on-off state for the switching value; setting a numerical value for the analog quantity, using video and audio, and setting associated video information; an SIP (Session Initiation protocol) protocol is called for communication, and actively issued voice information is set. Providing a function module for flow control: the delay module is used for setting a delay factor; a circulation module for setting circulation conditions; and the permission module provides permission selection for specific events. The alarm linkage configuration tool unit 8 provides for adding, deleting, modifying, etc. existing alarm linkage plans.

As shown in fig. 5, in step S1, the alarm linkage plan is stored in the database server 7. Specifically, the alarm linkage plan includes, but is not limited to, a linkage plan number, a linkage plan name, a linkage plan trigger point tag name, a linkage plan trigger condition, a linkage plan trigger value, an execution plan trigger point tag name, an execution plan trigger point preset value, and a function module number. The database server 7 is also used for data storage, including alarm plan data, alarm log data, and plan execution log data.

As shown in fig. 5, in step S2, the alarm linkage plan is read from the database server 7 by the linkage data processing unit 2. Specifically, the linkage data processing unit 2 is in communication connection with the database server 7, and the database server 7 is used for linkage data processing unit 2, data synchronization unit 3, first data service unit 4, second data service unit 5, authority authentication unit 6, alarm linkage configuration tool unit 8, and first client unit 9 to access data.

As shown in fig. 5, in step S3, the linkage data processing unit 2 acquires monitoring data of the mine integrated automation monitoring unit 1. Specifically, the linkage data processing unit 2 and the mine integrated automation monitoring unit 1 are connected through an ethernet. When the linkage data processing unit 2 processes the monitoring data of each monitoring subsystem of the mine integrated automation monitoring unit 1, the linkage data processing unit 2 collects the real-time operation data of each monitoring subsystem through a standard OPC protocol, and the mine integrated automation monitoring unit 1 comprises an OPC server.

As shown in fig. 5, in step S4, the linkage data processing unit 2 compares the monitoring data with the linkage plan triggering condition and the linkage plan triggering value in the alarm linkage plan to determine whether the triggering condition is satisfied; and if the triggering condition is met, executing the operation of step S5, and if the triggering condition is not met, not processing the monitoring data to circularly acquire the monitoring data of the mine integrated automation monitoring unit 1 through the linkage data processing unit 2.

As shown in fig. 5, step S5 is to send the monitoring data and the linkage plan number in the alarm linkage plan to the data synchronization unit 3 for linkage alarm. Specifically, referring to fig. 6, fig. 6 is a flowchart illustrating a step S5 of the multi-platform alarm linkage method for a mine in fig. 5 according to an embodiment of the present application. Step S51, the data synchronization unit 3 forwards the monitoring data and the linkage plan number in the alarm linkage plan to the first data service unit 4 and the second data service unit 5. In step S52, the first data service unit 4 generates execution data to forward the execution data to the second data service unit 5 and the linkage data processing unit 2 through the data synchronization unit 3. Step S53, the linkage data processing unit 2 queries an execution plan trigger point label name and an execution plan trigger point preset value in the alarm linkage plan according to a linkage plan number in the alarm linkage plan corresponding to the execution data. Step S54, the mine integrated automation monitoring unit 1 issues an execution plan trigger point preset value to an execution plan trigger point signature in the alarm linkage plan corresponding to the execution data. Step S55, the first data service unit 4 packs the monitoring data to generate packed first monitoring data. Step S56, the first data service unit 4 forwards the packaged first monitoring data to the first client unit 9, so that the first client unit 9 can query the first monitoring data. Step S57, the second data service unit 5 packs the monitoring data to generate packed second monitoring data. Step S58, sending the packaged second monitoring data to a second client unit 10 through the right authentication unit 6, so that the second client unit 10 can query the second monitoring data.

As shown in fig. 6, the first data service unit 4 may be a PC (personal computer) client data service unit, the second data service unit 5 may be a mobile APP (application) data service unit, the first client unit 9 may be a PC client unit, and the second client unit 10 may be a mobile APP client unit. Specifically, in step S54, an execution plan trigger point signature in the alarm linkage plan corresponding to the execution data may be issued by using an OPC protocol to a preset execution plan trigger point preset value. In step S56, the first client unit 9 may be queried by a udp (user datagrampprotocol) protocol. In step S58, the second monitoring data may be sent to the authority authentication unit 6 via a WebSocket (full duplex communication protocol based on TCP), and the authority authentication unit 6 queries an address of the second client unit 10 to provide a corresponding authority authentication service, for example, manages leadership authority, and maintainer authority.

As shown in fig. 5 and 6, the first client unit 9 and the second client unit 10 respectively provide alarm query and execution functions of the PC and the mobile terminal, the first client unit 9 and the second client unit 10 provide an alarm plan flow chart on an interface, and an alarm value of an alarm point, a plan execution condition, and a related video are displayed in real time on the flow chart. Calling corresponding modules according to the requirements of the alarm linkage plan: and calling the first video unit 91 and the second video unit 101 to automatically pop up video information related to the alarm point. And calling the first voice unit 92 and the second voice unit 102, wherein the voice broadcast adopts automatic alarm point fault information broadcast. Meanwhile, the information needing to be sent down for voice broadcast is associated with an underground expanding system through an SIP (session initiation protocol), fault alarm information is sent to a working face site, site workers can know the site alarm information in time conveniently, and voice interaction with the site is achieved. The first linkage unit 93 and the second linkage unit 103 are called to be responsible for confirming and issuing alarm linkage results, in order to prevent misoperation caused by automatic execution of a plan after a hardware misinformation signal, the first linkage unit 93 and the second linkage unit 103 adopt an automatic and manual combination linkage mode, when an emergency occurs, a system automatically shows the appearing alarm information and an optional processing plan on an operation interface, and a manager manually selects corresponding linkage operation after verification and confirmation. The second client unit 10 has a real-time message pushing function, and when a fault alarm occurs, a pushing interface similar to that of a WeChat receiving new message is provided at the mobile phone terminal. Opening the push message will show the detailed information of the fault alarm, the video information on site, etc. in real time, according to the authority of the login address, for example, the authority of the maintenance personnel: only the fault alarm point state condition and the alarm site video information are provided, and a basis is provided for timely and accurate maintenance. Managing leader authority: and providing the fault alarm point state condition and the alarm site video information, and simultaneously providing linkage execution issuing authority.

As shown in fig. 5 and 6, the linkage plan number may be 00001, 00002, etc., the linkage plan number may be configured by itself, the linkage plan name may be arranged, for example, a drainage system one-size water pump drainage vacuum fault, a main conveyor belt blind inclined shaft belt emergency stop, etc., the linkage plan trigger point tag name may be ZZK _ ZYPD _ DI _0010, the linkage plan trigger point tag name corresponds to an OPC tag name, the linkage plan trigger condition may be equal to or not equal to, the linkage plan trigger value is 1, for example, an actual value of reading ZZK _ ZYPD _ DI _0010 is equal to 1, indicating that a trigger condition is established, the execution plan trigger point name may be ZZK _ ZYPD _ DI _0015, an OPC tag satisfying a condition trigger, for example, a pulling rope emergency stop is established, the execution plan preset value may be 1, for example, if the trigger condition is satisfied, 1 is written to the ZZK _ ZYPD _ DI _0015 tag.

Referring to fig. 1, 3 and 4, fig. 1 is a schematic structural block diagram of a multi-platform alarm linkage system for a mine according to an embodiment of the present disclosure. Fig. 3 is a schematic structural block diagram of a first client unit of a multi-platform alarm linkage system for a mine according to an embodiment of the present disclosure. Fig. 4 is a schematic structural block diagram of a second client unit of a multi-platform alarm linkage system for a mine according to an embodiment of the present disclosure. The principle of the multi-platform alarm linkage method for the mine is similar to that of the multi-platform alarm linkage method for the mine, the multi-platform alarm linkage system for the mine can install the mine integrated automation monitoring unit 1 on a machine room server of a mine dispatching center, install the first client unit 9 on a management workstation in the mine integrated automation system, install the second client unit 10 on a local security mobile phone or a common mobile phone of a branch management leader and a maintainer, and install the alarm linkage configuration tool unit 8 in a maintenance workstation.

As shown in fig. 1, the multi-platform alarm linkage system for a mine includes, but is not limited to, a mine integrated automation monitoring unit 1, a linkage data processing unit 2, a data synchronization unit 3, a first data service unit 4, a second data service unit 5, an authority authentication unit 6, a database server 7, an alarm linkage configuration tool unit 8, a first client unit 9, and a second client unit 10. The database server 7 is used for storing alarm linkage plans, and the linkage data processing unit 2 is used for reading the alarm linkage plans from the database server 7. And the linkage data processing unit 2 is used for acquiring monitoring data of the mine comprehensive automatic monitoring unit 1. The linkage data processing unit 2 is used for comparing the monitoring data with a linkage plan triggering condition and a linkage plan triggering value in the alarm linkage plan to judge whether the triggering condition is satisfied; and if the alarm linkage plan is not processed, the monitoring data and the linkage plan number in the alarm linkage plan are sent to a data synchronization unit 3 to perform linkage alarm. The alarm linkage configuration tool unit 8 is used for configuring the alarm linkage plan. The first client unit 9 includes a first video unit 91, a first voice unit 92, and a first linkage unit 93, and the second client unit 10 includes a second video unit 101, a second voice unit 102, and a second linkage unit 103.

Referring to fig. 2, fig. 2 is a schematic structural block diagram of an alarm device for a mine according to an embodiment of the present application. The alarm device for the mine comprises the multi-platform alarm linkage system for the mine, a plurality of computer terminals 100, a plurality of mobile terminals 110 and a plurality of monitoring terminals 120, wherein the computer terminals 100 are respectively in communication connection with the first data service unit 4 and the first client end unit 9, the mobile terminals 110 are respectively in communication connection with the second data service unit 5 and the second client end unit 10, and the monitoring terminals 120 are in communication connection with the mine integrated automation monitoring unit 1.

In conclusion, the multi-platform alarm linkage method, the multi-platform alarm linkage system and the alarm device for the mine can comprehensively know the related information of the alarm point at the first time when the alarm occurs, can provide the operation data of the alarm linkage on multiple platforms by a standard and efficient method, accurately execute the corresponding linkage requirements, and solve the problem of the transmission of the alarm linkage information of the last station.

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 can be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (10)

1. A multi-platform alarm linkage method for a mine is characterized by comprising the following steps:

storing an alarm linkage plan through a database server;

reading an alarm linkage plan from the database server through a linkage data processing unit;

the linkage data processing unit acquires monitoring data of the mine comprehensive automatic monitoring unit;

the linkage data processing unit compares the monitoring data with a linkage plan triggering condition and a linkage plan triggering value in the alarm linkage plan to judge whether the triggering condition is satisfied; and if the linkage plan number in the alarm linkage plan is not processed, the monitoring data and the linkage plan number in the alarm linkage plan are sent to a data synchronization unit to carry out linkage alarm.

2. The multi-platform alarm linkage method for the mine shaft according to claim 1, wherein the step of performing linkage alarm comprises:

the data synchronization unit forwards the monitoring data and the linkage plan number in the alarm linkage plan to a first data service unit and a second data service unit;

the first data service unit generates execution data so as to forward the execution data to the second data service unit and the linkage data processing unit through a data synchronization unit;

the linkage data processing unit inquires an execution plan trigger point label name and an execution plan trigger point preset value in the alarm linkage plan according to a linkage plan number in the alarm linkage plan corresponding to execution data;

and the mine comprehensive automatic monitoring unit issues an execution plan trigger point preset value to an execution plan trigger point signature in the alarm linkage plan corresponding to the execution data.

3. The multi-platform alarm linkage method for the mine as claimed in claim 1 or 2, wherein: the alarm linkage plan comprises a linkage plan number, a linkage plan name, a linkage plan trigger point label name, a linkage plan trigger condition, a linkage plan trigger value, an execution plan trigger point label name, an execution plan trigger point preset value and a functional module number.

4. The multi-platform alarm linkage method for the mine as claimed in claim 2, wherein the step of performing linkage alarm further comprises:

the first data service unit packs the monitoring data to generate packed first monitoring data;

and the first data service unit forwards the packaged first monitoring data to a first client unit for the first client unit to inquire.

5. The linkage method of multi-platform alarms for a mine of claim 4, wherein the step of performing linkage alarms further comprises:

the second data service unit packs the monitoring data to generate packed second monitoring data;

and sending the packaged second monitoring data to a second client unit through a permission authentication unit so as to be inquired by the second client unit.

6. The multi-platform alarm linkage method for the mine as claimed in claim 1, further comprising:

and configuring the alarm linkage plan through an alarm linkage configuration tool unit.

7. The multi-platform alarm linkage method for the mine as claimed in claim 1, wherein: and the execution data is forwarded to the second data service unit through the data synchronization unit according to the operator number, the execution time and the execution plan trigger point signature.

8. A multi-platform alarm linkage system for a mine, the multi-platform alarm linkage system for a mine comprising:

the database server is used for storing the alarm linkage plan;

the linkage data processing unit is used for reading an alarm linkage plan from the database server;

the linkage data processing unit is used for acquiring monitoring data of the mine comprehensive automatic monitoring unit;

the linkage data processing unit is used for comparing the monitoring data with a linkage plan triggering condition and a linkage plan triggering value in the alarm linkage plan so as to judge whether the triggering condition is satisfied; and if the linkage plan number in the alarm linkage plan is not processed, the monitoring data and the linkage plan number in the alarm linkage plan are sent to a data synchronization unit to carry out linkage alarm.

9. The multi-platform alarm linkage system for a mine of claim 8, further comprising:

and the alarm linkage configuration tool unit is used for configuring the alarm linkage plan.

10. An alarm device for a mine, the alarm device comprising:

a multi-platform alarm linkage system for a mine, the multi-platform alarm linkage system for a mine comprising:

the database server is used for storing the alarm linkage plan;

the linkage data processing unit is used for reading an alarm linkage plan from the database server;

the linkage data processing unit is used for acquiring monitoring data of the mine comprehensive automation monitoring unit, and comparing the monitoring data with linkage plan triggering conditions and linkage plan triggering values in the alarm linkage plan to judge whether the triggering conditions are met; if yes, sending the monitoring data and a linkage plan number in the alarm linkage plan to a data synchronization unit for linkage alarm, and if not, not processing the monitoring data;

the first data service unit is in communication connection with the data synchronization unit and the first client unit;

the second data service unit is in communication connection with the data synchronization unit and the authority authentication unit;

the second client unit is in communication connection with the authority authentication unit;

the computer terminals are respectively in communication connection with the first data service unit and the first client unit;

the mobile terminals are respectively in communication connection with the second data service unit and the second client unit;

and the monitoring terminals are in communication connection with the mine integrated automation monitoring unit.

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