RU62720U1 - INFORMATION AND ANALYTICAL SYSTEM FOR MONITORING FISHING OBJECTS - Google Patents

Abstract

The utility model relates to computing, information-measuring equipment and can be used in gas processing, oil refining and other industries in terms of transmission of monitoring monitoring using data from the automatic collection, processing and analysis of incoming information from field objects. The system can be used as the basis for the formation of an electronic turnover of a gas producer with a continuous technological cycle. The essence of the utility model consists in the use of a telegram stream module, a UNIX server, a database server, a telegram receiving and decoding module, a scanning and table module, a Web server, a module for generating dynamic Web pages, and interfaces that communicate between the automatic collection system , processing and analysis of incoming information from fishing facilities and the system of use of generally applicable network resources, by creating databases configured for two-way exchange from the server.

Description

The utility model relates to computing, information-measuring equipment and can be used in gas processing, oil refining and other industries in terms of transmission of monitoring monitoring using data from the automatic collection, processing and analysis of incoming information from field objects. The system can be used as the basis for the formation of an electronic turnover of a gas producer with a continuous technological cycle.

The well-known "System of data transmission on the technological process utility model No. 37560 IPC G 06 F 13/00. The system is used to transmit information about the process using specially designed user protocols. The disadvantage of the system is the many user protocols. The second drawback is the restriction of access to server resources for viewing information.

Also known is the "Process Data System with an Electronic Digital Signature" utility model No. 37851 IPC G 06 F 13/00, 15/163. The solution to the problem is provided in the information transfer system with subsequent further analysis of the technological parameters, with confirmation of the correctness of the data by electronic digital signature. The disadvantage of this system is the restriction of access rights in the analysis of the collected and processed information, as well as its accumulation in large volumes and limited storage periods.

The closest analogue is the "Process data transmission system with electronic digital signature" utility model No. 37851 IPC G 06 F 13/00, 15/163. This system is taken as a prototype.

“A process data transmission system with an electronic digital signature”, which has personal computers of the technical department, the technology department, the heat engineering department, the production department, the environmental department, the metrology department, the chief engineer, the industrial safety department, as well as the plant management computer network server and server application workstation, network switches do not provide data transmission for real-time analysis.

The task to be solved by the utility model is the development of information support that allows the personnel of the enterprise, as well as all interested persons who have the right of access and are connected to the local computer network of the enterprise to monitor the progress of the technological process, regardless of distance.

The solution to the problem of the utility model is the creation of tools with the help of which the daily protocols are automatically filled with the possibility of adjustment, as well as the opportunity to carry out analytical studies with parameters and data specified by users.

The technical result obtained by the implementation of the utility model consists in using a telegram stream module, a UNIX server, a database server, a telegram receiving and decoding module, a scanning and table module, a Web server, a dynamic web page generating module, and interfaces implementing communication between the system of automatic collection, processing and analysis of incoming information from field facilities and the system of using generally applicable network resources by creating databases configured on two-sided th exchange with users.

For this, blocks and communications that interact for the needs of users are introduced into the information-analytical system for monitoring fishing facilities. The structural diagram of the information-analytical system for monitoring fishing facilities is shown in Figure 1. It includes sensors for fishing facilities 1, main computer for fishing 2, UNIX server 3, full-time engineering stations 4, software for a standard SCADA system 5, the technological base for a standard SCADA system 6, a module for changing telegram and data flows 7, and a receiving-decoding module telegrams 8, scan and table module 9, Web server 10, module for generating dynamic Web pages 11, database server 12, real-time database of fishing objects 13, hourly scanning database "SUMMARY" 14, event history database 15, trend database x values of 16, 17, database files, a local area network of gas production department 18, a local area network 19 Company, computers authorized professionals and leaders gas production controller 20, computers authorized professionals and leaders 21 Company, computers authorized

PDS users (production and dispatch service) 35, computers of authorized users of automated control systems and instrumentation (automated control systems and instrumentation) 36, computers of authorized users of the geology department 37, computers of authorized users of TsNIPR (research and production work shop) 38, sensor interface of fishing objects 22, interface of the main telegram stream 23, software telegram interface 24, process data stream 25, interface from an additional telegram stream 26, the developed data for the database 27, the interface of configuration parameters 28, the information stream for summaries and archiving 29, the information stream of field sensors and configuration parameters 30, the information stream for querying the databases 31, the information stream of the databases for creating the Web -pages 32, information flow of dynamic Web pages 33, user actions and queries interface 34.

The outputs of the sensors of the fishing objects 1 through the interface of the sensors of the fishing objects 22 are connected to the inputs of the module changing the telegram stream and data 7, and the first outputs of the module changing the flow of telegrams and data 7 through the interface of the additional stream of telegrams 26 are connected to the first inputs of the receiving-decoding module of telegrams 8. The second the outputs of the module for changing the flow of telegrams and data 7 using the interface of the main stream of telegrams 23 are connected to the first inputs of the software of the standard SCADA system 5. The first outputs of the program To provide full-time SCADA-system 5 through the interface of software telegrams 24 are connected to the technological database of the standard SCADA-system 6, and the second software outputs of the standard SCADA-system 5 are connected to standard engineering stations 4 through the information flow of technological data 4. Outputs of the technological base data of the standard SCADA-system 6 via the telegram interface of the software 24 are connected to the second software inputs of the standard SCADA-system 5. The outputs of engineering stations 4 through the information flow of technological data 25 connected to the third inputs of the software standard SCADA-system 5. The outputs of the receiving-decoding telegram module 8 through the parsed data for the database 27 is connected to the first inputs of the database server 12, and the outputs of the scan module and tables 9 through the information stream for summaries and configurations 29 are connected to the second inputs of the database server 12, and the outputs of the module for generating dynamic Web pages 11 through the information stream for querying the databases 31 soy Inonii with the database server 12. The third inputs of first outputs data server database 12 via interface 28 configuration parameters connected with the inputs of a decoding module receiving-telegrams 8, the second output database server 12 through the information stream of commercial

sensors and configuration parameters 30 is connected to the inputs of the scanning module and tables 9. The third outputs of the database server 12 through the database information stream for generating Web pages 32 are connected to the first input of the dynamic Web pages generation module 11, and the second output of the dynamic Web generation modules -pages 11 through the information flow of dynamic Web pages 33 is connected to the local gas network of the gas control 18, and the outputs of the local computer network of the gas control 18 through the user actions and requests interface 34 is connected to the second inputs of the dynamic Web pages generation module 11. The local gas control network 18 connects the computers of authorized specialists and managers of the gas production control 20, computers of authorized users of the PDS 35, computers of authorized users of ACS and instrumentation 36, computers of authorized users of the geology department 38. Through the local area network of the Company 19 to the local area network Gazopr myslovogo control 18 connected computers authorized specialists and executives of the Company 21.

An example of practical application 1. The function of collecting and processing information. When automatically collecting and processing information from the sensors of fishing objects 1 through the interface of sensors of fishing objects 22, the data is transmitted to the module for changing telegram and data flows 7, in which parallelization into 2 streams takes place. The main telegram stream from the sensors through the interface of the main telegram stream 23 goes to the processing software of the standard SCADA system 5, and the additional telegram stream from the sensors through the interface of the additional telegram stream 26 goes to the input of the decoding telegram module 8. On a UNIX server 3 s using the receiving-decoding telegram module 8 and the scanning module and tables 9, a real-time database of fishing objects 13, an hourly scanning database “SUMMARY” 14, an event history database are created 15, a database of trend values 16, a database of archives 17. Thus, data is stored that can be used to track the dynamics of the process for any time interval.

Case Study 2, Function for providing information to users. For user access to the generated databases of the database server 12, a Web server 10 is installed. If it is necessary to view data from the computers of authorized users, a request is received through the local gas network of the Gas Management 18, then through the interface of user actions and requests 34, an appeal is made to the module for generating dynamic Web -pages 11, Web server 10. Depending on the type of information required by the user, upon request of information flow 31, database 13, database

data 14, or to the hourly scanning database “SUMMARY” 15, to the database of trend values 16 or the database of archive data 17. The selected data through the information stream for generating Web pages 32 are transmitted to the module for generating dynamic Web pages 11, where and pages are formed in graphical, chronological or real-time mode. Then, the requested data along the line of the information flow of dynamic Web pages 33 are redirected to the local gas network of the Gas Production Administration 18 to a specific authorized user who requested information.

The advantages of the utility model are that cross-platform interaction of heterogeneous systems has been developed with the aim of creating additional remote workstations for users who have access to operational and archival information to monitor production facilities and the process.

Claims (1)

Information and analytical system for monitoring objects in the field, containing computers of authorized specialists and managers of the Gas Production Directorate, computers of authorized specialists and managers of the Company, computers of authorized users of PDS (production and dispatch service), computers of authorized users of ACS (automated control systems) and instrumentation (control and measurement) instruments), computers of authorized users of the geology department, computers of authorized users oil TsNIPR (workshop for research and production work), characterized in that the sensors of fishing facilities, the main computer of the field, UNIX server, standard engineering stations, the software of a standard SCADA system, the technological base of a standard SCADA system, a module are introduced into it changes in telegram and data flows, receiving and decoding telegram module, scan and table module, Web server, dynamic Web page generation module, database server, real-time database of fishing objects, hourly database with Annotation "SUMMARY", a database of the history of events, a database of trend values, a database of archives, a local computer network of the Gas Production Department, a local computer network of the Company, an interface for sensors of field objects, an interface for the main telegram stream, an interface for software telegrams, an information stream for technological data, interface for additional telegram stream, developed data for the database, interface for configuration parameters, information stream for summaries and archives information, information flow of fishing sensors and configuration parameters, information flow for querying databases, information flow of databases for generating Web pages, information flow of dynamic Web pages, interface of user actions and queries, and outputs of sensors of fishing objects through the interface of sensors of fishing objects connected to the inputs of the module changing the flow of telegrams and data, and the first outputs of the module changing the flow of telegrams and data through the interface of the additional stream t The telegrams are connected to the first inputs of the telegram receiving-decoding module, while the second outputs of the telegram and data stream changing module are connected to the first inputs of the standard SCADA system software using the main telegram stream interface, and the first SCADA system software outputs are connected via the telegram interface software are connected to the technological database of the standard SCADA system, the second software outputs of the standard SCADA system through the information flow of those biological data are connected to the standard engineering stations, and the outputs of the technological database of the standard SCADA system are connected via the software telegram interface to the second software inputs of the standard SCADA system, while the outputs of engineering stations are connected to the third inputs of the standard software through the process data stream SCADA-systems, and the outputs of the receiving-decoding telegram module through the parsed data for the database is connected to the first inputs the database server, and the outputs of the scan module and tables through the information flow for summaries and configurations are connected to the second inputs of the database server, and the outputs of the module for generating dynamic Web pages through the information flow for querying the databases are connected to the third inputs of the database server, the first outputs the database server through the interface of the configuration parameters is connected to the inputs of the receiving-decoding telegram module, and the second outputs of the database server through the information flow sensors and configuration parameters are connected to the inputs of the scanning module and tables, the third outputs of the database server through the information flow of the database for generating Web pages are connected to the first input of the module for generating dynamic Web pages, and the second output of the module for generating dynamic web pages through the information the flow of dynamic Web pages is connected to the local gas control network, and the outputs of the local gas control network via the interface user actions and requests are connected to the second inputs of the module for generating dynamic Web pages, the local gas network of the Gas Production Department connects the computers of authorized specialists and managers of the Gas Production Network, computers of authorized users of the PDS, computers of authorized users of ACS and instrumentation, computers of authorized users of the geology department, when through the local computer network of the Company to the local computer network of the Gas systematic way connected computers authorized specialists and company executives.