CN203101935U - Mine monitoring system data integration processing system based on structure of Internet of Things - Google Patents

Abstract

The utility model relates to a mine monitoring system data integration processing system based on the structure of the Internet of Things. The system consists of a computer device and functional modules, wherein the computer device consists of a data server, a middleware server, an object name analysis server, a data processing workstation, and a management workstation, the functional modules consists of a data service module, a middleware module, an object name analysis module, a subsystem data processing module, and a management configuration module, and the data server, the middleware server, the object name analysis server and the management workstation are installed in a dispatching center machine room, and are connected with the data processing workstation installed in a field monitoring subsystem through a mine industrial Ethernet. The mine monitoring system data integration processing system based on the structure of the Internet of Things simplifies interfaces of system services and an upper service system, reduces difficulty of data processing and the maintenance workload during operation, and enables construction and operation of the system to be relatively reasonable, stable and efficient.

Description

Mine Monitoring and Control System data integration disposal system based on the Internet of Things structure

Technical field

The utility model relates to mine Integrated Automation Technology field, discloses a kind of Mine Monitoring and Control System data integration disposal system based on the Internet of Things structure that meets the Internet of Things standard.

Background technology

At present in the construction of mine complex automatic system, need integrated Monitor And Control Subsystem One's name is legion, function has nothing in common with each other, establish one's own system, the product with manufacturer of system in construction is a guiding, only can taking into account system self, can't consider the demand that the mine complex automatic system is built, each system all has oneself independently data processing method and coding standard, has ignored data integration and contact between each system, thereby forms information island.And complex automatic system can only be passive deacclimatize this situation.

At this situation, common disposal route is to adopt a configuration software to carry out integrated to the various subsystem monitors data in the mine complex automatic system, though this method the data integration of each subsystem together, but remain the system of a sealing, data can only be in the inner use of this configuration software.When change appears in intrasystem subsystem, or when having outside third party's application need to obtain data in system, the maintenance of system is revised, and the exploitation of external data interface all needs to expend bigger cost, also can cause adverse influence to the stable operation of system.

The utility model content

The utility model is for solving above-mentioned problems of the prior art, a kind of Mine Monitoring and Control System data integration disposal system based on the Internet of Things structure that meets the Internet of Things standard is provided, this system to each the subsystem monitors data in the mine complex automatic system according to the Internet of Things relevant criterion, utilization uniform communication agreement, unified interface, unified coded system, gather, handle, gather, constitute unified data access pattern, improve the utilization ratio of data, alleviated the development and maintenance workload of system.

The technical solution of the utility model is as follows:

Based on the Mine Monitoring and Control System data integration disposal system of Internet of Things structure, system is made up of computer equipment and functional module; Computer equipment is made up of data server, middleware server, object name resolution server, data processing work station, management work station; Functional module is made of data service module, middleware module, object name parsing module, subsystem data processing module, management configuration module; Data server, middleware server, object name resolution server, management work station are installed in dispatching center's machine room, are connected by the mine Industrial Ethernet with the data processing work station that is installed in on-site supervision subsystem place.

Based on the Mine Monitoring and Control System data integration disposal system of Internet of Things structure, be installed in the data processing work station in order to the subsystem data processing module that the Monitor And Control Subsystem monitor data is converted to the Internet of Things formatted data.

Mine Monitoring and Control System data integration disposal system based on the Internet of Things structure, be installed in the middleware server in order to the middleware module that Internet of Things form monitor data is handled, middleware module is made up of data storage cell and data processing unit, be used for the data of obtaining from the subsystem data processing module are handled, will handle the back data storage in data service module.

Mine Monitoring and Control System data integration disposal system based on the Internet of Things structure, in order to preserve Monitor And Control Subsystem monitor data and relevant rudimentary information, and the data service module that the data query service is provided is installed in the data server, data service module is used for storing the Back ground Information of all kinds of relevant devices in the real-time and historical monitor data, system of each service sub-system of mine complex automatic system, the data of storage can be used for all kinds of upper-layer service system queries, and data service module is made of data storage cell and service interface unit.

Mine Monitoring and Control System data integration disposal system based on the Internet of Things structure, be arranged in the object name resolution server in order to the object name parsing module that external data server address and device coding mapping management and query function are provided, the object name parsing module adopts the ultimate principle of domain name mapping service, come treatment facility coding and the mapping management and the inquiry of corresponding data server address to be implemented in the Internet of things system, realize facility information inquiry location by device coding.

Mine Monitoring and Control System data integration disposal system based on the Internet of Things structure is installed in the management work station in order to the management configuration module that each functional module in the system is managed for configuration.

By above-mentioned various functional modules, hardware device, can be with the monitor data of various different manufacturers in the mine complex automatic system, different purposes, dissimilar service sub-system, by the subsystem data processing module according to unified coded system, be converted to the data layout that meets the Internet of Things standard, after handling by middleware module, be saved in the data service module and offer the upper-layer service system and external service system is used with uniform way.The service interface that meets the Internet of Things standard that the upper-layer service system only needs the access services program to provide just can obtain and preserve the monitor data of required all kinds of subsystems from data service module and middleware module, need not to develop special-purpose data-interface for visiting different subsystems again.

The beneficial effects of the utility model are: use the Mine Monitoring and Control System data integration disposal system based on the Internet of Things structure, effectively to the upper-layer service system mask difference between all kinds of Monitor And Control Subsystems in the mine complex automatic system, make the upper-layer service system obtain required monitor data with standard, a high-efficiency method.Because the use of standard data format and interface, after certain functional module in the system was revised, upgraded, the upper-layer service system still can continue to obtain data by the interface of standard, and need not to pay close attention to the modification and the renewal of this functional module.Reduce the difficulty of upper-layer service system development, maintenance, reduced the workload of system implementation, maintenance.Mine complex automatic system long-term stability, operation have efficiently been guaranteed.Because data integration is handled with service and has been adopted the architecture design that meets the Internet of Things standard, for laying a good foundation with interconnecting of outside Internet of Things later on.

Description of drawings

Accompanying drawing is the modular structure figure of system in the utility model.

Embodiment

1, the structure of system.

System constructing is on the mine complex automatic system, at dispatching center, ore deposit machine room installation data server (1), middleware server (2), object name resolution server (3), management work station computer equipments such as (5), in these equipment, be separately installed with data service module (6), middleware module (7), object name parsing module (8), management configuration module (10).

There are data work of treatment stations (4) Monitor And Control Subsystem pulpit in each is linked into the mine complex automatic system, and subsystem data processing module (9) is installed therein.For the Monitor And Control Subsystem that upper main control computer is arranged, also subsystem data processing module (9) can be directly installed in the main control computer of Monitor And Control Subsystem.

All equipment links together by the Industrial Ethernet network of mine, carries out the transmission of data by Industrial Ethernet, with data be pooled to middleware module (7), data service module places such as (6) handles, stores.

The organization chart of system as shown in drawings.

Each operation system of mine complex automatic system is obtained required Monitor And Control Subsystem data by the service interface of standard from data service module (6), middleware module functional modules such as (7).When Industrial Ethernet with after outside internet is communicated with, object name parsing module (8) in the Industrial Ethernet can obtain data by the object name parsing module (12) from the internet, and the external service system (13) that data service module (6) also can be in the internet provides data query and stores service.

The Mine Monitoring and Control System data integration processing by meeting the Internet of Things standard and the use of method of servicing, for the mine complex automatic system is set up the network system framework of standard unification, data sharing, extensible expansion, with existingly disperse, independent, single network supervision platform promotes and is system, opening, polynary integrated network supervising platform.Development along with technology of Internet of things, when Internet of Things after coming into operation aspect the colliery comprehensively, system just can directly insert Internet of Things, realization is used the closed loop of coal mining enterprise inside to carry out the transition to based on the open loop of internet and is used, the resource consolidation of the overall situation is become the resource of a wide area, openly on the internet, reach telemanagement, maintenance, monitoring, realize the purpose of intelligent supervision, information sharing.

2, middleware module (7) function realizes.

The management configuration module (10) that use is installed in the management work station (5) is configured middleware module (7).

1) parameter that is connected of middleware module (7) and subsystem data processing module (9) is set, after deploy content being generated as automatically the data of PML form, the service interface that calls middleware module (7) upload the data in the middleware module (7), middleware module (7) checking definition of data legal effectively after, set up data according to the parameter of definition with corresponding subsystem data processor automatically and be connected.

2) middleware module (7) being set handles, reports the subsystem monitors data, after in configurator, defining relevant parameter, Automatic Program is generated as the report create-rule data of PML form, the service interface that calls middleware module (7) upload the data in the middleware module (7), middleware module (7) checking definition of data legal effectively after, automatically send to the upper-layer service system (11) of having called this definition according to the monitor data of the definition process subsystem of report create-rule, and with the data sheet that generates.

Report create-rule, configuration parameter that middleware module (7) receives are preserved by data storage cell, and after functional module restarted, middleware module (7) can read out configuration file, the parameter of being preserved by data storage cell automatically.

In the operational process of system, at any time can by management configuration module (10) to middleware module (7) and subsystem data processing module (9) be connected that parameter, report create-rule etc. increase, modification, deletion action.

3, data service module (6) function realizes.

The management configuration module (10) that use is installed in the management work station (5) is configured data service module (6).The data storage cell on initialization data service module (6) backstage manages maintenance to the data storage unit.

1) from data storage cell, obtains desired data by the data query service interface that calls data service module (6).Upper-layer service system (11) generates the correlation parameter of data query the data of PML form, by the data query service interface that calls data service module (6) the query argument file is sent in the data service module (6), data service module (6) is after parsing checking query argument is effective, related data retrieval is come out from the data storage cell on backstage according to query argument, after generating the data of PML form, turn back to the upper-layer service system (11) that sends inquiry.

2) by the data storage service interface that calls data service module (6) data are saved in the data service module (6).After upper-layer service system (11) or the automatic stored programme of data will need the data of preserving to generate the data of PML form, data are sent to the data memory interface of data service module (6) by HTTP POST mode, data service module (6) receives data, through resolve verification msg legal effectively after, call data storage cell with data storage in database.

4, object name parsing module (8) function realizes.

Object name parsing module (8) adopts the ultimate principle of domain name mapping service, comes treatment facility coding and the mapping management and the inquiry of data server accordingly.It is an automatic network service system, is similar to the domain name mapping service.After upper-layer service system (11) reads the information of a device coding, the address of the data server that the Back ground Information that utilizes object name parsing module (8) to obtain the pairing equipment of this device coding in LAN (Local Area Network) or on the Internet is stored.Object name parsing module (8) has indicated the data server for information about of storing this equipment for upper-layer service system (11) software, therefore just can find this data server, and the information about this equipment in this data server is passed over.

5, the function of subsystem data processing module (9) realizes.

Subsystem data processing module (9) is installed in the main control computer of data processing work station (4) or subsystem, and data processing work station (4) are installed in the subsystem controls chamber, are connected image data with subsystem nearby.According to the system architecture of subsystem, the difference of communication modes, the subsystem data processor adopts different communications protocol, as: RS232, RS485, MODBUS, TCP/IP, FTP, OPC etc. obtain monitor data from equipment such as the host computer computing machine of subsystem, PLC, control substations, the data that obtain, according to the Internet of Things standard, after Unified coding is handled, the data that issue according to middleware module (7) report order, send to middleware module (7) behind the packet with relevant data generation PML form and handle.

6, the function of management configuration module (10) realizes.

Management configuration module (10) is installed in the management work station (5), as the working host of system's daily servicing and running state monitoring.The data service module (6), middleware module (7), the object name parsing module (8) that are used for system manage configuration, be provided with middleware module (7) and subsystem data processing module (9) communications parameter, the report create-rule of middleware module (7) data processing is set.The running status of each server, data processing module in the supervisory system, the topology diagram of generation system.The log information of register system operation.Ruuning situation for each functional module in the system is monitored, when functional module break down or network connect to interrupt being in time to report to the police, prompting the maintainer fix a breakdown.

The above only is preferred embodiment of the present utility model; be not in order to limit the scope of essence technology contents of the present utility model; so essence technology contents of the present utility model broadly is defined in claims; any technology entity or method that other people are finished; if it is identical with the definien of claims institute; or be the change of same equivalence, all will be regarded as containing among the protection domain with this patent.

Claims (6)

1. based on the Mine Monitoring and Control System data integration disposal system of Internet of Things structure, it is characterized in that: system is made up of computer equipment and functional module; Computer equipment is made up of data server (1), middleware server (2), object name resolution server (3), data processing work station (4), management work station (5); Functional module is made of data service module (6), middleware module (7), object name parsing module (8), subsystem data processing module (9), management configuration module (10); Data server (1), middleware server (2), object name resolution server (3), management work station (5) are installed in dispatching center's machine room, are connected by the mine Industrial Ethernet with the data processing work station (4) that is installed in on-site supervision subsystem place.

2. the Mine Monitoring and Control System data integration disposal system based on the Internet of Things structure according to claim 1 is characterized in that: be installed in the data processing work station (4) in order to the subsystem data processing module (9) that the Monitor And Control Subsystem monitor data is converted to the Internet of Things formatted data.

3. the Mine Monitoring and Control System data integration disposal system based on the Internet of Things structure according to claim 1, it is characterized in that: be installed in the middleware server (2) in order to the middleware module (7) that Internet of Things form monitor data is handled, middleware module (7) is made up of data storage cell and data processing unit, be used for the data of obtaining from subsystem data processing module (9) are handled, will handle the back data storage in data service module (6).

4. the Mine Monitoring and Control System data integration disposal system based on the Internet of Things structure according to claim 1, it is characterized in that: in order to preserve Monitor And Control Subsystem monitor data and relevant rudimentary information, and provide the data service module (6) of data query service to be installed in the data server (1), data service module (6) is used for storing the real-time and historical monitor data of each service sub-system of mine complex automatic system, the Back ground Information of all kinds of relevant devices in the system, the data of storage can be used for all kinds of upper-layer service systems (11) inquiry, and data service module (6) is made of data storage cell and service interface unit.

5. the Mine Monitoring and Control System data integration disposal system based on the Internet of Things structure according to claim 1, it is characterized in that: be arranged in the object name resolution server (3) in order to the object name parsing module (8) that external data server address and device coding mapping management and query function are provided, object name parsing module (8) adopts the ultimate principle of domain name mapping service, come treatment facility coding and the mapping management and the inquiry of corresponding data server address to be implemented in the Internet of things system, realize facility information inquiry location by device coding.

6. the Mine Monitoring and Control System data integration disposal system based on the Internet of Things structure according to claim 1 is characterized in that: be installed in the management work station (5) in order to the management configuration module (10) that each functional module in the system is managed for configuration.

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