CN102880146A - Profibus device monitoring and managing system - Google Patents

Abstract

The invention discloses a profibus device monitoring and managing system which comprises a data acquisition module and a data processing module. The data acquisition module is connected with the data processing module by an Ethernet, the data acquisition module comprises an OPC [OLE (object linking and embedding) for process control] client and a historical record module, and the data processing module comprises a profibus device type file generating module, a profibus device configuration module and a profibus device monitoring and managing module. The device monitoring and managing system is separated from a DCS (distributed control system) by the aid of an OPC protocol, and is independent from communication protocols of devices, universality of the devices is realized by a method for writing device type files (ET), configuration and addition of a device are completed at one step, feasibility and safety of the system are improved via a working relation list according to industrial running standards, and work speediness and convenience are improved by creating a document database.

Description

A kind of field bus device monitoring management system

Technical field

The invention belongs to field bus device administrative skill field, relate to a kind of field bus device monitoring management system.

Background technology

From the eighties in 20th century, fieldbus is strong because of its reliability, communication is quick, compatible wide, cost is low etc., and a series of advantages are able to widespread use in industrial automatic control.Increasingly automated, the digitizing of producing in addition, living, the intelligent development that also promotes field bus control system and field bus device, various device management system and field bus device are of a great variety at present, can satisfy the needs of various industries.But also there are some very important problems in present most of equipment management systems.

Along with the development of fieldbus, there have been many companies according to the requirement in market to develop separately equipment management system at present, and obtained a large amount of application, reaction is good.Wherein more representational have following two kinds: the process device manager SIMATIC PDM of Siemens Company and the AMS intelligent device management system of Ai Mosheng company.These two kinds of equipment management systems have represented respectively the implementation of two kinds of equipment management systems, comprise wherein the module composition and the information interaction of field apparatus and equipment management system, the two all is mutually different.Different just because of its mechanism, so that the application of two kind equipment management systems also differs widely.

1) Simatic PDM system

Simatic PDM is the equipment management system that a cover develops for the Profibus field bus system.This cover system be one be used for to field apparatus and automation component show, the general utility tool of test run, diagnosis and maintenance.Its distinguishing feature is exactly: integration, its purpose of design is tried hard to exactly with field devices integration.In this cover system, allow to realize integrated by multiple method; DD by the device fabrication merchant; By agreement PROFIBUS PA-Profile V3.0; By the HCF(HART communication foundation) catalogue realize the integrated of equipment.

The management work of this complete equipment management system of PDM mainly realizes by equipment itself.The functions such as the parametrization of equipment, diagnosis, realization optimization all are that the form with functional block realizes that the information such as messaging parameter, device parameter, argument structure and device action of equipment all offer the system integration user of equipment by the EDD file simultaneously in equipment.PDM has a top-heavy system architecture.It is very high to the requirement of equipment manufacturers, needs equipment manufacturers just to consider the management work such as maintenance to equipment, optimization in production equipment and realizes in equipment with the form of functional block.

Realize that at client layer which kind of field bus protocol the theoretical method of integration of equipments does not require based on equipment, therefore uses the PDM system of this theoretical method very extensive at usability by using the EDD file.But also just because of this theoretical method, PDM has a strict requirement to equipment, and namely field apparatus must provide the EDD file, and for the field apparatus of not supporting EDD, this cover management system is inapplicable; Simultaneously because the groundwork of this devices in system management all is form by functional block realizes in equipment, require very high to the device fabrication merchant, the function that therefore can realize is fairly simple, limited, and the increase that the user of equipment also basically can not be extra is to the management function of field apparatus.So from the angle of equipment control, the practical function of its equipment control is very limited.

Except requiring too high to device fabrication producer, can't be general with all devices outside, PDM diagnoses mainly for equipment and adds up, and for the rig-site utilization management aspect function of this specific industry of power plant a little less than, can't when need to safeguarding, equipment failure appearance or equipment provide corresponding maintenance guidance, can not automatically generate maintenance or maintenance work ticket, the fault diagnosis of equipment can not be dissolved in the middle of the industrial flow of whole power plant industry.In addition, PDM does not preserve fully to the historical data of whole field bus device, although PDM can generate alarm log, and preserve with the CSV form, but when PDM computing machine break down and when restarting, when reopening PDM, historical data before will be lost.

2) AMS equipment management system

The AMS of Ai Mosheng is a system in combination, has comprised AMS facility information platform, AMS intelligent device management system, AMS mechanical equipment state management system, AMS performance detecting system and AMS real-time optimization system.Integrated application by above-mentioned five systems can realize the functions such as the management of intelligence instrument valve arrangement, capability of engineering equipment monitoring, process device Performance Detection and system protection.

Wherein, the AMS equipment management system is from the angle of the system integration, user's requirement modularize further consisted of independently management system and with its unified being integrated on the information platform.The advantage of this system is: the parameter information of all field apparatuss all is embodied in the unified interface; When carrying out a certain function, the user can travel through all field apparatuss.

In addition, AMS integrates data acquisition, data analysis, therefore will carry out " connection " with equipment by DCS system or direct line.At present, AMS can only utilize software and hardware and the wiring of the DCS system of a few companies such as Ai Mosheng, communicate with devices communicating, and during for most applications, just must be connected on simultaneously on the equipment by traffic pilot and DCS system, so just cause equipment to add more complicated, had a strong impact on the extendability of system.

Summing up above two kinds of equipment management systems commonly used can find out, the equipment management system of main flow has several defectives at present:

1. high to equipment requirement.Most of equipment management systems all require equipment that the EDD file of facility information file such as PDM, the DD file of AMS must be able to be provided.Therefore, system requires equipment must be able to generate, provide corresponding facility information file during operation, must improve like this requirement to equipment, in case equipment can't provide message file, then management system can't be brought this equipment into management area, has reduced versatility.

2. extendability is poor.Therefore most of equipment management systems all will communicate with equipment, must utilize software and hardware and wiring and equipment connection, and the cost of the whole equipment management system that must increase like this and complicacy also will inevitably have influence on original DCS system.

3. too tight with the DCS system, coupled.Present equipment management system basically all be " embedded " in the DCS system, be easy to the operation of DCS is impacted, and also strengthened the difficulty of management system installment and debugging.This is to some application scenarios such as this high-risk of thermoelectricity, high emergent industry, and " embedding " equipment management system in the DCS system more or less can increase the potential safety hazard of control system.

4. all be the system of " heavyweight ".Present equipment management system all is powerful and scale also " powerful " basically, and the function of a lot of systems repeats with the function of DCS, more than occurring on the function and not smart situation.

Summary of the invention

The problem that the present invention solves is to provide a kind of field bus device monitoring management system, this system be a kind of have an extensive versatility can obtain bus apparatus abundant state and diagnostic data, it is carried out depth analysis, monitoring display and provides maintenance/maintenance guidance and the real-time monitoring of computer management system of work ticket.

The present invention is achieved through the following technical solutions:

A kind of field bus device monitoring management system comprises the data acquisition module and the data processing module that are connected by Ethernet;

Data acquisition module comprises OPC client and history module;

The diagnostic message of the OPC client collection site bus apparatus that is connected with opc server, the OPC client is crossed Ethernet with the data communication device that gathers and is sent to data processing module, and the OPC client also sends to history module with the data that gather;

History module keeps the image data in a period of time, and regularly image data is saved in the history data file;

Data processing module comprises field bus device type file generation module, field bus device configuration module, field bus device monitoring management module, field bus device raw data real time data library module and field bus device operational data real time data library module;

Field bus device type file generation module, type and using method thereof according to field bus device generate device type file corresponding to this equipment, the device type file provides form and algorithm for the management of device configuration and monitoring of tools, when this document starts in system by field bus device configuration module loading;

Described device type file comprises the diagnostic message dot pattern definition that device type is required, and the definition of diagnostic message state algorithm;

Field bus device configuration module, generate the position relationship of reflection field bus device and the operation topological diagram of operation information, according to the station information of field bus device it is added on corresponding position among the operation configuration figure, and the device type file of loading is associated its essential information, status information and diagnostic message with field bus device when starting according to system;

Field bus device monitoring management module, the diagnostic data of the field bus device that reception OPC client gathers, with diagnostic data value real-time update in field bus device raw data real time data library module, simultaneously according to field bus device type file and algorithm corresponding to field bus device type file the fieldbus diagnostic data is carried out periodic computing, refresh in real time information on this module monitors interface according to operation result, and its operation result real-time update is saved in field bus device operational data real time data library module;

Field bus device raw data real time data library module, receive the raw information point data of field bus device monitoring management module, store the correspondence position of raw data real-time data base into, and timing cycle stores the data in all raw data real-time data bases in the raw data history file into;

Field bus device operational data real time data library module, data behind the reception field bus device monitoring management module arithmetic, store the correspondence position of operational data real-time data base into, timing cycle stores the data in all operational data real-time data bases in the operational data history file into.

Also comprise Web server module and field bus device Web data request processing module;

The Web server module, the request of response management system client browser access sends request of data according to request of access to data processing module;

Field bus device Web data request processing module, receive the request of data of Web server module, type according to request msg reads corresponding data from field bus device operational data real time data library module, and data is write as the file of corresponding format according to the request of Web server module;

Web server module scheduling real-time periodic reads the data file that field bus device Web data request processing module is write according to request, and data message is sent to the management system client browser.

Described opc server is connected with the DCS system;

The mode that the OPC client crosses the data communication device that gathers with multicast sends to data processing module, also is provided with fire wall between OPC client and the data processing module.

Be provided with the OPC group in the described opc server, the OPC group derives the field bus device diagnostic message point that needs collection, and generates the diagnostic message dot file according to it.

Described device type file is according to the device type in the field engineering, for each device type is made a device type file.

When system starts, system reads diagnostic message dot file information, field bus device raw data real time data library module is according to these information creatings, initialization real-time data base, and all diagnostic message points and relevant information are stored in the real-time data base with certain format.

When system started, when starting in system, system read the field bus device type file, according to its information, created device type object and relevant information and operational formula, so that reading information during the selected device type of configuration.

Described field bus device configuration is that the device type object is associated with information point in the field bus device real-time data base, for the Fieldbus Control supervisory system is added equipment, for equipment arranges device type.

When the field bus device monitoring management system started, information point establishment, initialization operational data real-time data base according to configuration info, device association read in order to the updated stored of operational data and the data of Web data request processing module.

Described data operation module is also passed through current state or the historic state of device name or KKS code query facility.

Compared with prior art, the present invention has following useful technique effect:

Field bus device monitoring management system provided by the invention and method thereof, utilize the OPC agreement that equipment management system is spun off from the DCS system, do not rely on the communication protocol of equipment, the method of employing programming apparatus type file (ET) realizes the versatility of equipment, configuration and interpolation equipment is disposable finishes, by feasibility, security that working relation singly improves system, set up agility, convenience that document database improves office according to industrial operation standard.

Compare with existing system, the present invention has following technical characterstic:

1) general-purpose platform, the suitable device scope is wide.The present invention does not require that equipment must provide the relevant information file, can and be loaded into system according to operation instruction and the use-pattern programming apparatus type file (ET) of equipment, thereby can bring monitoring range of the present invention into by the programming apparatus type file for any field bus device.

2) extendability is high, installs simple.Since the present invention be from existing DCS system by OPC agreement equipment information point data, so can not relate to problem with the equipment wiring, install simply, convenient, fast, and can not change, affect the wiring of existing DCS System Dependent and structure.

3) low, safe with the DCS system, coupled.The present invention is independent of outside the DCS system, and is low with the coupling of DCS system, can be used with any DCS, and any operation of the present invention operation can not have influence on the normal operation of DCS, therefore safe.

4) " lightweight " equipment management system.The present invention is absorbed in the monitoring of field bus device, does not add the function that any other has influence on the DCS system, does not repeat, does not conflict with other control system on the function, carries out monitoring management take unit as unit.

5) work ticket mechanism more meets the commercial production standard.The present invention has developed one and has overlapped the work ticket treatment mechanism that meets production standard and easy operating fully in conjunction with the regular job rules and regulations of Thermal Power Enterprises.The work ticket mechanism have something to base ons all such as on-the-spot any change to equipment and system, operation, so both guaranteed the security of working also so that this is operated in afterwards can check and examine.

Description of drawings

Fig. 1 is the network architecture diagram of equipment management system.

Fig. 2 is that data are at the process flow diagram of whole processing procedure.

Fig. 3 is the process flow diagram that each cycle data refreshes.

Fig. 4 is the process flow diagram that work ticket generates.

Embodiment

The present invention is described in further detail below in conjunction with specific embodiment, and the explanation of the invention is not limited.

Referring to Fig. 1, Fig. 2, a kind of field bus device monitoring management system comprises the data acquisition module and the data processing module that are connected by Ethernet; The field bus device monitoring management system of this invention has comprised fire wall, data acquisition module and data processing module.

Data acquisition module comprises OPC client and history module, and the diagnostic message of the OPC client collection site bus apparatus that is connected with opc server, OPC client are also crossed Ethernet with the data communication device that gathers and sent to data processing module; History module keeps the image data in a period of time;

Concrete OPC client connects the opc server of controlling network by Ethernet, then is connected on the opc server by the OPC client in data acquisition module, creates the OPC group, and adds the field bus device diagnostic message point that need to gather in the OPC group;

By deriving and import feature, add the KKS code of its corresponding device for each field bus device diagnostic points, the diagnostic message point of communication main website does not need to add the KKS code;

Preserve the diagnostic message point that adds in the OPC client, and generation diagnostic message dot file (.osd file), diagnostic message dot file (.osd file) is sent in data processing module and the historical record program, makes the field bus device diagnostic message in its acquisition control network.

After concrete OPC client arrives data acquisition, use multicast mode that data are sent to data processing module, data acquisition module will record 8 hours image data simultaneously.

Data processing module comprises field bus device type file generation module, field bus device configuration module and field bus device monitoring management module;

Field bus device type file generation module generates device type file corresponding to this equipment according to type and the using method thereof of field bus device, the device type file comprises the diagnostic message point that device type is required, and fractionation array mode and the operational formula of diagnostic message point;

Method for splitting and the computing formula of every kind of field bus device diagnostic message have been defined in the concrete device type file; Generative process is as follows:

(1) the required diagnostic message point of define equipment type;

(2) according to the definition of field bus device diagnostic message, use the solution position method for splitting of each diagnostic message point of xml formal definition, in the field bus device diagnostic message point each is split out;

(3) according to the field engineering needs, after splitting each is reconfigured and computing, and write out operational formula with the xml form;

(4) use field bus device type generator program that the data definition of xml form is resolved, and finally generate the device type file.

Field bus device configuration module generates the position relationship of reflection field bus device and the operation configuration figure of operation information, station information according to field bus device is added on corresponding position among the operation configuration figure with it, and simultaneously its essential information, status information and diagnostic message is associated with field bus device;

Like this by the field bus device configuration, device type file (.et file) is combined with field bus device diagnostic points file (OPCData.osd file), be the Fieldbus Control supervisory system and add equipment, for equipment arranges device type, and erecting equipment type requirement, from field bus device diagnostic points file, search corresponding diagnostic message point, it is associated with in the equipment.

Described configuration is as follows:

(1) adds controller and communication main website according to the field engineering topological diagram, add new topological diagram take communication box as unit in the communication main website;

(2) the pel drawing topological graph in the use configuration instrument;

(3) behind the interpolation communication main website pel, for communication main website pel arranges controller title, operating office title, address, add at last the diagnostic message point;

(4) under the communication main website, add network segment pel, and title, address and KKS code are set for the network segment;

(5) choose network segment pel, at its lower field bus device pel that adds, add field bus device for the field bus device monitoring management system simultaneously, device name is set during interpolation equipment, device description, the KKS code, the address, station, the attributes such as device type and value of feedback unit, when selected device type, from field bus device type file (.et file), obtain the definition of diagnostic message point and the operational formula of this type equipment, at last that the fieldbus diagnostic points in the equipment and control network that adds is relevant, configuration is saved to file with the configuration engineering after finishing.

The diagnostic message of the field bus device that field bus device monitoring management module reception OPC client gathers, read the field bus device type file and field bus device configuration file carries out computing to the fieldbus diagnostic data, and its result is shown on the interface of data operation module.

Safeguard if having equipment new fault to occur or need, it is single then automatically to generate working relation, this moment, fault was recorded, if and Failure elimination can not return to normal condition, only have the field failure of working as processed, and after having confirmed that working relation is single, could thoroughly eliminate the malfunction of this equipment.

Field bus device monitoring management module is also added up field bus device, wherein comprises device class statistics, faulty equipment statistics and service equipment statistics.

Further, data processing module also comprises Web server module and field bus device Web data request processing module;

The Web server module, the request of response management system client browser access sends request of data according to request of access to data processing module;

Field bus device Web data request processing module, receive the request of data of Web server module, type according to request msg reads corresponding data from field bus device operational data real time data library module, and data is write as the file of corresponding format according to the request of Web server module;

Web server module scheduling real-time periodic reads the data file that field bus device Web data request processing module is write according to request, and data message is sent to the management system client browser.

The below provides the concrete method for supervising of this system:

The method for managing and monitoring of this field bus device may further comprise the steps:

1) data collecting module collected field bus device diagnostic data

(1) use Ethernet that the opc server of data acquisition module with the control network is connected;

(2) open the OPC client in the data acquisition module of bus apparatus monitoring management system at the scene, and the opc server of connection control network, in the opc server that connects, add the OPC group, dead band and scan period that OPC organizes can be set simultaneously, under the OPC of appointment group, add the field bus device diagnostic message point that needs collection at last;

(3) all field bus device diagnostic message points in the OPC group are exported in the csv file, use Excel to open export, each diagnostic message point accounts for delegation in the export, first classifies the label of diagnostic message point as, in secondary series, insert the KKS code of the equipment corresponding with first row diagnostic message point label, after preserving csv file, use the csv file after the OPC client will be edited again to import in the former OPC group;

(4) configuration in the OPC client is saved to " .ocf " file, to generate simultaneously field bus device diagnostic message dot file (OPCData.osd file), this file will be sent to respectively historical record program, field bus device configuration program and field bus device monitor supervisor;

(5) the OPC client begins to send the field bus device diagnostic message point data that receive from control network opc server with multicast mode.

Step 2: the making apparatus type file, according to the device type in the field engineering, make a device type file (.et file) for each device type, concrete steps are as follows:

(1) according in the control network to the definition of diagnostic message, device type is to definition and the on-the-spot demand to diagnostic message of diagnosis byte, the diagnostic message point that uses the xml formal definition to require calculation;

(2) according to the definition of diagnosis byte in the field bus device type, the diagnostic message point of definition in (1) is split, for each that splits out is named, and will define and name with the xml form and represent;

(3) according to the requirement of field engineering, each diagnostic message that splits out in (2) is reconfigured, according to its operational formula of program requirements definition, and represent with the xml form;

(4) operation field bus device type generator program is resolved the diagnostic message definition of xml form, and the operational formula of infix expression is converted to the suffix form the most at last, and is kept in the device type file (.et file).

Step 3: the configuration of field bus device, for the Fieldbus Control supervisory system is added equipment, for equipment arranges device type, and erecting equipment type requirement, search corresponding diagnostic message point from field bus device diagnostic points file, it is associated with in the equipment, concrete steps are as follows:

(1) in the data operation module, opens the field bus device configuration program, add controller and communication main website according to the field engineering topological diagram, add new topological diagram take communication box as unit in the communication main website;

(2) the pel drawing topological graph in the use configuration instrument;

(3) behind the interpolation communication main website pel, for communication main website pel arranges controller title, operating office title, address, add at last the diagnostic message point;

(4) add network segment pel, the network segment does not arrange title, address and KKS code;

(5) choose network segment pel, at its lower field bus device pel that adds, add field bus device for the field bus device monitoring management system simultaneously, during interpolation equipment, device name need be set, device description, the KKS code, the address, station, device type, the attributes such as value of feedback unit, after having set certain device type, its diagnostic message point is determined, this moment need to from field bus device diagnostic message dot file, find out the KKS code point identical with equipment KKS, and with it successively according to analog quantity point, packing point or three kinds of modes of fractionation point are associated with field bus device;

(6) saving scene bus apparatus configuration obtains topological diagram configuration file (.grp file) and field bus device object configuration file (EquipmentObject.dat file);

(7) the configuration file is sent in the historical record program of data acquisition module, can carry out computing according to the mode in the configuration.

Step 4: the computing of field bus device diagnostic data, the multicast packet of data operation module receive data acquisition module, configuration info, device type file and field bus device diagnostic message dot file by the Project Configuration file, the fieldbus diagnostic data is carried out computing, and its result is shown on the interface of data operation module, the concrete operation method is as follows:

(1) starts field bus device monitoring management system computing module, read respectively field bus device type file (.et file), fieldbus diagnostic message dot file (OPCData.osd file) and field bus device configuration file (EquipmentObject.dat file), according to diagnostic points information creating dynamic data base, initialization field bus device object, send synchronous data requests by Transmission Control Protocol to the historical record program in the data acquisition module, data in the synchronous dynamic database and all historical datas that log off since the last time, if the last time logged off before 8 hours, then can only synchronous 8 hour datas, the historical data that comprises data point in the historical data, the historic state of equipment and newly-generated working relation are single, 8 hours mechanism prevents that the management end accident from withdrawing from rear data message and losing, synchronously the rear data consistent that guarantees;

(2) thread of startup receiving group bag, begin to receive the field bus device diagnostic data, the data that receive are saved to the raw data real-time data base, and with upper one constantly data compare, if diagnostic data changes, the direct announcement apparatus of KKS code by data point place equipment then makes equipment recomputate all states when execution cycle next time, then need not calculate if diagnostic data changes;

(3) start execution cycle, per 3 seconds all field bus devices of run-down, flow process as shown in Figure 3, if the diagnostic data of equipment changes, the state that the current device of then rerunning is all;

The flow process of described execution cycle is: begin an execution cycle, at first determine whether and also have the not equipment of traversal, if not then obtain next device object, whether the diagnostic message of current device changes, if change, all states in the computing equipment, and determine whether new fault or maintenance state, if have then equipment is set to malfunction, then according to this equipment whether Under Repair or safeguard, if whether do not existed untreated working relation single according to this equipment again, if not then the building work contact is single, if having then that failure message is added existing working relation is single.

(4) referring to Fig. 4, after if the computing of bus apparatus state finishes at the scene, find that current device has new fault or maintenance state to occur, judge whether current device just is in the state in handling failure, if fault is arranged to be processed, then do not generate work ticket (claiming that yet working relation is single), otherwise judge whether current device has existed also untreated working relation list, if exist, then will work as prior fault and add this working relation list, if there is no, then generate a new working relation list for current device;

After if computing finishes, finding has fault to be eliminated, and record malfunction once then, and equipment state recovered normal only has when equipment and keeped in repair, and working relation is single to be identified, and it is normal that the malfunction of equipment could be recovered fully;

(5) per 3 seconds are with historical data write memory buffer zone, data writing in files before inciting somebody to action in per 1 minute within 1 minute, historical data comprises the original historical data of field bus device diagnostic data point and the computing historical data of equipment state, during storage of history data P, the data of current data and previous moment are compared, if change, then it is recorded to internal memory, otherwise record not, reduce the redundance of historical data by the method, historical data can be used for the information such as historic state of query facility;

(6) data of statistics in the internal memory, and it is shown in the interface of data operation module;

(7) the data operation module is except having computing and statistical function, also possesses query function, can be by current state or the historic state of device name or KKS code query facility, also can inquire about the working relation list that the contact of dealing with the work is single, deal with the work the contact list, finish in ten days, and single according to time period searching work contact, perhaps by maintainer's name query all the relevant working relation of maintainer is single therewith.

Claims (10)

1. a field bus device monitoring management system is characterized in that, comprises the data acquisition module and the data processing module that are connected by Ethernet;

Data acquisition module comprises OPC client and history module;

The diagnostic message of the OPC client collection site bus apparatus that is connected with opc server, the OPC client is crossed Ethernet with the data communication device that gathers and is sent to data processing module, and the OPC client also sends to history module with the data that gather;

History module keeps the image data in a period of time, and regularly image data is saved in the history data file;

Data processing module comprises field bus device type file generation module, field bus device configuration module, field bus device monitoring management module, field bus device raw data real time data library module and field bus device operational data real time data library module;

Field bus device type file generation module, type and using method thereof according to field bus device generate device type file corresponding to this equipment, the device type file provides form and algorithm for the management of device configuration and monitoring of tools, when this document starts in system by field bus device configuration module loading;

Field bus device configuration module, generate the position relationship of reflection field bus device and the operation topological diagram of operation information, according to the station information of field bus device it is added on corresponding position among the operation configuration figure, and the device type file of loading is associated its essential information, status information and diagnostic message with field bus device when starting according to system;

Field bus device monitoring management module, the diagnostic data of the field bus device that reception OPC client gathers, with diagnostic data value real-time update in field bus device raw data real time data library module, simultaneously according to field bus device type file and algorithm corresponding to field bus device type file the fieldbus diagnostic data is carried out periodic computing, refresh in real time information on this module monitors interface according to operation result, and its operation result real-time update is saved in field bus device operational data real time data library module;

Field bus device raw data real time data library module, receive the raw information point data of field bus device monitoring management module, store the correspondence position of raw data real-time data base into, and timing cycle stores the data in all raw data real-time data bases in the raw data history file into;

Field bus device operational data real time data library module, data behind the reception field bus device monitoring management module arithmetic, store the correspondence position of operational data real-time data base into, timing cycle stores the data in all operational data real-time data bases in the operational data history file into.

2. field bus device monitoring management system as claimed in claim 1 is characterized in that, also comprises Web server module and field bus device Web data request processing module;

The Web server module, the request of response management system client browser access sends request of data according to request of access to data processing module;

Field bus device Web data request processing module, receive the request of data of Web server module, type according to request msg reads corresponding data from field bus device operational data real time data library module, and data is write as the file of corresponding format according to the request of Web server module;

Web server module scheduling real-time periodic reads the data file that field bus device Web data request processing module is write according to request, and data message is sent to the management system client browser.

3. field bus device monitoring management system as claimed in claim 1 is characterized in that, described opc server is connected with the DCS system;

The mode that the OPC client is crossed multicast with the data communication device that gathers sends to data processing module, also is provided with fire wall between OPC client and the data processing module.

4. field bus device monitoring management system as claimed in claim 3 is characterized in that, is provided with the OPC group in the described opc server, and the OPC group derives the field bus device diagnostic message point that needs collection, and generates the diagnostic message dot file according to it.

5. field bus device monitoring management system as claimed in claim 1 is characterized in that, described device type file is according to the device type in the field engineering, for each device type is made a device type file;

Described device type file comprises the diagnostic message dot pattern definition that device type is required, and the definition of diagnostic message state algorithm.

6. field bus device monitoring management system as claimed in claim 1, it is characterized in that, when system starts, system reads diagnostic message dot file information, field bus device raw data real time data library module is according to these information creatings, initialization real-time data base, and all diagnostic message points and relevant information are stored in the real-time data base with certain format.

7. field bus device monitoring management system as claimed in claim 1 is characterized in that, when starting in system, system reads the field bus device type file, according to its information, create device type object and relevant information and operational formula, so that reading information during the selected device type of configuration.

8. field bus device monitoring management system as claimed in claim 1, it is characterized in that, described field bus device configuration, that the device type object is associated with information point in the field bus device real-time data base, for the Fieldbus Control supervisory system is added equipment, for equipment arranges device type.

9. field bus device monitoring management system as claimed in claim 1, it is characterized in that, when the field bus device monitoring management system starts, according to information point establishment, the initialization operational data real-time data base of configuration info, device association, in order to the updated stored of operational data.

10. field bus device monitoring management system as claimed in claim 1 is characterized in that, described data operation module is also passed through current state or the historic state of device name or KKS code query facility.

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