CN201667560U - Cross-platform monitoring device - Google Patents

Abstract

The utility model aims at disclosing a cross-platform monitoring device, which is characterized by comprising a data acquisition and monitoring server, a WEB server and a client end, wherein the data acquisition and monitoring server is used for acquiring data from a data acquisition end and writing the data into a history database and a real-time database; the WEB server is used for transmitting the data of the history database in the data acquisition and monitoring server; the client end is used for monitoring, analyzing and processing the data in the real-time database, and generating a corresponding data report; and the WEB server transmits the data in the history database in the data acquisition and monitoring server by a WEB SERVICE mode to the client end, and the data acquisition and monitoring server transmits the data in the real-time database by an information software bus mode. The cross-platform monitoring device is designed by adopting a latest JAVA virtual machine technology and a real-time soft bus technology, has strong compatibility, high safety, high reliability, small volume, stable work, strong misoperation prevention and convenient use and achieves the purposes of the utility model.

Description

A kind of cross-platform supervising device

Technical field

The utility model relates to a kind of cross-platform supervising device, be particularly related to a kind of stability that is applicable to operation, reliability requirement than higher power monitoring field, also can be applicable to the cross-platform supervising device in the comprehensive automation system of transformer substation of industries such as Industry Control.

Background technology

In existing comprehensive automation system of transformer substation, adopt the monitoring software (SCADA) that operates on the monitoring host computer that various parameters of electric power in the transformer station and smart machine are carried out data acquisition, supervision and control usually; Monitoring host computer need satisfy following requirement:

1, transformer station's relevant device is carried out real time data supervision, warning, event report and intellectual analysis;

2, the monitoring software of monitoring host computer can run on different operating system;

3, the fail safe of the monitoring software of monitoring host computer should be guaranteed, and not attacked by bogusware;

4, the hardware platform of the monitoring software operation of support monitoring host computer should be reliable;

5, client's monitoring client should insert conveniently, and software upgrading is simple;

6, satisfy the mean free error time requirement;

7, hardware platform and volume are little, and be easy for installation;

To sum up said, the monitoring software of monitoring host computer will fully play and monitor that controlled function just needs to satisfy: with operating system independent, the client application upgrading is convenient; Safe, good stability, and install and use at the scene of being convenient to.

As shown in Figure 1, existing supervising device, it is made up of network platform NETPROC, preposition module I OSERVER, data processing module SCADA and man-machine interface VIEW; In distributed environment, system operates on each node, each node is the Industry Control main frame of a stylobate in WINDOWS operating system, share real time data by network platform NETPROC between node, preposition module I OSERVER is from data acquisition end IED image data, and data are handled through data processing module SCADA, deposit real-time data base and historical data base respectively in according to rule, monitoring module obtains data and shows execution configuration and policer operation from data processing module SCADA.

The subject matter of the software systems in the above-mentioned existing supervising device is:

1, can only run on the WINDOWS platform, fail safe and less stable, anti-misoperation ability;

2, increase the monitor node trouble, each node all needs to reinstall debugging;

3, adopt Industry Control main frame less stable.

And there is following problem in the monitoring software in the above-mentioned existing supervisory control system:

1, depend on WINDOWS operating system, fail safe and stability are not enough;

2, adopt host-guest architecture, trouble is installed and used at the scene;

3, adopt industrial computer as monitoring server, mechanical component easy break-downs such as fan and hard disk cause the operation stability of whole system relatively poor.

For the foregoing reasons, need a kind of cross-platform supervising device especially.

The utility model content

The purpose of this utility model is to provide a kind of cross-platform supervising device, overcomes compatible not enough, the poor stability of the platform that is exposed in the above-mentioned prior art; The hardware platform reliability and stability are not enough; Client takies resource and reaches problems such as using inconvenience more, realizes various parameters of electric power in the transformer station and smart machine are carried out data acquisition, supervision and control and can run on different operating system.

The technical problem that the utility model solved can realize by the following technical solutions:

A kind of cross-platform supervising device is characterized in that it comprises:

One is used for from data acquisition end image data and data is write the data acquisition and the monitoring server of historical data base and real-time data base;

One is used for transmitting the WEB server of data acquisition and monitoring server historical data database data; And

Be used for historical data base and real-time data base data are monitored, analyze, handled and generate the client of corresponding data form;

Described WEB server is given described client by WEB SERVICE mode with historical data base transfer of data in described data acquisition and the monitoring server, and described data acquisition and monitoring server are given described client by information flexible bus mode with transfer of data in the real-time data base.

In an embodiment of the present utility model, described data acquisition and monitoring server comprise historical data base, real-time data base and data acquisition and monitoring module, data interaction mutually between described data acquisition and monitoring module and the data acquisition end, described historical data base and real-time data base respectively with described data acquisition and the mutual data interaction of monitoring module, described data acquisition and monitoring module are by WEB SERVICE mode and the mutual data interaction of described WEB server.

In an embodiment of the present utility model, be provided with client modules by JAVA WEBSTART mode on the described WEB server.

In an embodiment of the present utility model, described client comprises control module and local data cache module, described control module is by WEB SERVICE mode and the mutual data interaction of described WEB server, described control module comprises user interface, transaction module, real time data module and security mechanism, described transaction module and the mutual interaction data of described local data cache module.

In an embodiment of the present utility model, described data acquisition and monitoring server, WEB server and client are embedded in the JAVA virtual machine.

Cross-platform supervising device of the present utility model, adopt up-to-date JAVA virtual machine technique, real-time flexible bus technology and designing, have compatible strong, safe, reliability is high, volume is little, working stability, anti-misoperation ability are strong, easy to use, realize the purpose of this utility model.

Characteristics of the present utility model can be consulted the detailed description of the graphic and following better execution mode of this case and be obtained to be well understood to.

Description of drawings

Fig. 1 is the structural representation of existing supervising device;

Fig. 2 is the structural representation of cross-platform supervising device of the present utility model.

Embodiment

For technological means, creation characteristic that the utility model is realized, reach purpose and effect is easy to understand, below in conjunction with concrete diagram, further set forth the utility model.

Embodiment

As shown in Figure 2, cross-platform supervising device of the present utility model, it comprises: data acquisition and monitoring server 100, WEB server 200 and client 300.

Data acquisition and monitoring server 100 comprise historical data base 110, real-time data base 120 and data acquisition and monitoring module 130, data interaction mutually between data acquisition and monitoring module 130 and the data acquisition end IED, historical data base 110 and real-time data base 120 respectively with data acquisition and monitoring module 130 mutual data interactions, data acquisition and monitoring module 130 is by WEB SERVICE mode and the 200 mutual data interactions of WEB server; Data acquisition and monitoring server 100 are used for writing historical data base 110 and real-time data base 120 from data acquisition end IED image data and with data.

Be provided with client modules 210 by JAVA WEB START mode on the WEB server 200, WEB server 200 is used for transmitting the data of data acquisition and monitoring server 100 historical data bases 110.

Client 300 comprises control module 310 and local data cache module 320, control module 310 is by WEB SERVICE mode and the 200 mutual data interactions of WEB server, control module 310 comprises user interface, transaction module, real time data module and security mechanism, described transaction module and local data cache module 320 mutual interaction datas; Client 300 is used for the corresponding data form is monitored, analyzes, handles and generated to historical data base 110 and real-time data base 120 data.

WEB server 200 is given client 300 by WEB SERVICE mode with historical data base 110 transfer of data in data acquisition and the monitoring server 100, and data acquisition and monitoring server 100 are given client 300 by information flexible bus mode with transfer of data in the real-time data base 120.

Data acquisition and monitoring server 100, WEB server 200 and client 300 are embedded in the JAVA virtual machine.Based on the JAVA technology, operate on the JAVA virtual machine, rely on the JAVA framework to realize cross-platform deployment; Be suitable for the different editions of WINDOWS; Can be in operating system stable operations such as LINUX, UNIX, MAC OS, NOTIF, PHOTON.

In the present embodiment, data acquisition and monitoring server 100 adopt the embedded hardware platform, realize SCADA functions such as data acquisition, transmission, processing, storage, inquiry, and client 300 is used common PC or removable computer.Client 300 as the main actual figure of man-machine interface according to the show, analyze and operation such as monitoring in real time; During operation, mutual main information is from IED equipment, at first handle from IED and gather the data of coming, write historical data base 110 and real-time data base 120 respectively according to rule, the real time data of the real-time data base 120 that is used to monitor is distributed to client 300 through the information flexible bus, the historical data of historical data base 110 is used for report printing and data analysis with WEB SERVICE technology transfer.

Client 300 adopts the SmartClient technology, client 300 support is easy to the client application disposing and manage, their intelligent links by using local resource in a unified manner and arriving the distributed data resource provide real-time, that respond fast and abundant interactive experience.Traditional Fat Client makes full use of the resource of client, can work offline, but deployment and renewal is very complicated.Thin-client is then based on browser, and reaction is quick, and is easy to dispose and safeguard, connects but browser must have real-time network.And the instant download of SmartClient, automatically fit version, support breakpoint transmission.The function of Fat Client and the easy deployment and the stability based on browser of flexibility and thin-client are combined, abandoned the deficiency of the two, make it in the utilization of resource, to reach balance.

Data acquisition and monitoring server 100 adopts the embedded hardware platforms, and volume is little, high being convenient to of reliability is installed and is disposed, and can satisfy transformer station's complexity, abominable electromagnetic environment; On the basis of realizing protocol conversion, data centralization and Communications service function, further develop embedded historical data base 110 and human machine interface technologies, realize history data store and functions such as inquiry, human-machine interface configuration, for compact centralized monitor, unattended operation automated station end system of new generation provide reliable solution; Also can be used as the core component of SCADA centralized control center system scheme, realize the distributed SCADA systemic-function of a new generation.

Client 300 is forbidden the application beyond the monitoring software, is not subjected to virus attack.

The characteristics of cross-platform supervising device of the present utility model:

1, the software of client 300 is disposed automatically: Java Web Start is based on a kind of deployment solution of Java The Application of Technology program.Allow the user under the situation that breaks away from Web fully, move and manage application program, the simple and easy method of a Click to Activate application program is provided, and the latest edition that runs application all the time of assurance, thereby complex installation or escalation process can be avoided.

2, online and off-line all can use: client modules 210 can offline operation, the scheme that the design philosophy of off-line/online seamless switching and metadata cache are handled, and good should right related needs.

3, based on data acquisition and the monitoring server 100 of JAVA: adopt pure Object-oriented Technique to realize, based on Java language, use multiple IT advanced technologies such as XML, in conjunction with power automation IEC61850/IEC61970 standard, construct outstanding system architecture, realize the multiple application service that meets the SOA framework, fundamentally improved the traditional mode of present power automatic system, really realize cross-platform.

4, construct outstanding system architecture, realize the multiple application service that meets the SOA framework, fundamentally improved the traditional mode of present power automatic system, really realize cross-platform.

More than show and described basic principle of the present utility model and principal character and advantage of the present utility model.The technical staff of the industry should understand; the utility model is not restricted to the described embodiments; that describes in the foregoing description and the specification just illustrates principle of the present utility model; under the prerequisite that does not break away from the utility model spirit and scope; the utility model also has various changes and modifications; these changes and improvements all fall in claimed the utility model scope, and the claimed scope of the utility model is defined by appending claims and equivalent thereof.

Claims (5)

1. cross-platform supervising device is characterized in that it comprises:

One is used for from data acquisition end image data and data is write the data acquisition and the monitoring server of historical data base and real-time data base;

One is used for transmitting the WEB server of data acquisition and monitoring server historical data database data; And

Be used for historical data base and real-time data base data are monitored, analyze, handled and generate the client of corresponding data form;

Described WEB server is given described client by WEB SERVICE mode with historical data base transfer of data in described data acquisition and the monitoring server, and described data acquisition and monitoring server are given described client by information flexible bus mode with transfer of data in the real-time data base.

2. cross-platform supervising device as claimed in claim 1, it is characterized in that, described data acquisition and monitoring server comprise historical data base, real-time data base and data acquisition and monitoring module, data interaction mutually between described data acquisition and monitoring module and the data acquisition end, described historical data base and real-time data base respectively with described data acquisition and the mutual data interaction of monitoring module, described data acquisition and monitoring module are by WEB SERVICE mode and the mutual data interaction of described WEB server.

3. cross-platform supervising device as claimed in claim 1 is characterized in that, is provided with client modules by JAVA WEB START mode on the described WEB server.

4. cross-platform supervising device as claimed in claim 1, it is characterized in that, described client comprises control module and local data cache module, described control module is by WEB SERVICE mode and the mutual data interaction of described WEB server, described control module comprises user interface, transaction module, real time data module and security mechanism, described transaction module and the mutual interaction data of described local data cache module.

5. cross-platform supervising device as claimed in claim 1 is characterized in that, described data acquisition and monitoring server, WEB server and client are embedded in the JAVA virtual machine.

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