CN204374756U - Integration O&M supervisory system - Google Patents
Integration O&M supervisory system Download PDFInfo
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- CN204374756U CN204374756U CN201520076076.2U CN201520076076U CN204374756U CN 204374756 U CN204374756 U CN 204374756U CN 201520076076 U CN201520076076 U CN 201520076076U CN 204374756 U CN204374756 U CN 204374756U
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- 238000012545 processing Methods 0.000 description 3
- 230000002159 abnormal effect Effects 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 2
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P90/00—Enabling technologies with a potential contribution to greenhouse gas [GHG] emissions mitigation
- Y02P90/02—Total factory control, e.g. smart factories, flexible manufacturing systems [FMS] or integrated manufacturing systems [IMS]
Abstract
The utility model discloses a kind of integrated O&M supervisory system, comprise user side, middleware, server, storer and display module, the quantity of described user side is at least one, described user side is electrically connected with middleware, described middleware is electrically connected with server, described server is connected to storer and display module, also comprise monitor component and sorter, described monitor component comprises the first monitoring module, second monitoring module and the 3rd monitoring module, the input end of described first monitoring module is electrically connected with middleware, the input end of described second monitoring module is electrically connected with server, the input end of described 3rd monitoring module is electrically connected with storer, described first monitoring module, the input end of the output terminal difference link sort device of the second monitoring module and the 3rd monitoring module, the output terminal of described sorter is electrically connected with display module, this programme intensity is high, can quick position, has good O&M performance.
Description
Technical field
The utility model relates to Network Monitoring Technology field, particularly relates to a kind of integrated O&M supervisory system be applied in IT system.
Background technology
Along with electronic information development, IT operation management becomes the informationalized necessary article of financial industry, to financial service system normal operation, just needs to monitor server and operation system; If want bank's Intranet smooth, stable, just need monitoring network connectedness and equipment performance to improve the competitive power of finance.Along with the continuous expansion of financial business, in order to adapt to this development trend, bank in the improvement means of services, increase service function, improve business kind, improve efficiency of service etc. in done a large amount of work, the input of operation system is constantly increased, and then a new level is also risen to the demand of IT O&M.
Although the technology of IT operation management is in continuous progress, in fact a lot of IT operation maintenance personnel does not really free, and the current robotization of main cause is not high to be caused.Although current technology can obtain information technoloy equipment, server, network traffics, the even warning message of storer, thousands of bar warning message be deposited in together more originally cannot decision problem root where.Further, the more new management overwhelming majority work of current many enterprises is all manual.Even if a simple system variation or renewal often all need operation maintenance personnel to log in every platform equipment one by one carry out manual change, when number of devices reaches to time hundreds and thousands of, its workload is big well imagines.And such change and inspection operate in IT O&M and often all carrying out every day, occupy a large amount of O&M resources.Therefore, the robotization realizing operation management work is concerning extremely urgent enterprise.
Utility model content
Technical problem to be solved in the utility model is: provide a kind of integrated O&M supervisory system, can quick position warning message, is convenient to Breakdown Maintenance; Intensity is high, improves the O&M ability of system.
In order to solve the problems of the technologies described above, the technical solution adopted in the utility model is: provide a kind of integrated O&M supervisory system, comprise user side, middleware, server, storer and display module, the quantity of described user side is at least one, described user side is electrically connected with middleware, described middleware is electrically connected with server, described server is connected to storer and display module, also comprise monitor component and sorter, described monitor component comprises the first monitoring module, second monitoring module and the 3rd monitoring module, the input end of described first monitoring module is electrically connected with middleware, the input end of described second monitoring module is electrically connected with server, the input end of described 3rd monitoring module is electrically connected with storer, described first monitoring module, the input end of the output terminal difference link sort device of the second monitoring module and the 3rd monitoring module, the output terminal of described sorter is electrically connected with display module.
Concrete, the second sub-classifier that described sorter comprises the first sub-classifier of corresponding first monitoring module setting, corresponding second monitoring module is arranged and the 3rd sub-classifier that corresponding 3rd monitoring module correspondence is arranged.
Preferably, the second sensing module also comprising router, be arranged at the first sensing module in server and be arranged at outside server; Described first sensing module comprises temperature sensor and humidity sensor, and described sorter also comprises the 4th sub-classifier, described first sensing module and router wireless connections, and is connected with the 4th sub-classifier by router; Described second sensing module comprises temperature sensor and humidity sensor, described second sensing module and router wireless connections, and is connected with the 4th sub-classifier by router.
Preferably, described temperature sensor and humidity sensor are that WIFI, bluetooth or infrared radio frequency are connected with the radio connection of router.
Preferably, also comprise memory module, described memory module is electrically connected with display module.
Concrete, described first monitoring module, the second monitoring module and the 3rd monitoring module support any one or more than one procotol acquisition monitoring data in SNMP, TELNET, SSH, Syslog, Trap, Netflow, WMI and Push-Agent.
The beneficial effects of the utility model are: although can obtain information technoloy equipment for current technology, server, network traffics, the even warning message of storer, but thousands of bar warning message is deposited in the problem that more originally cannot judge particular location together, the utility model provides a kind of integrated O&M supervisory system, mainly comprise monitor component and sorter, this monitor component is for middleware, the data monitoring of server and storer arranges the first corresponding monitoring module respectively, second monitoring module and the 3rd monitoring module, the data of collection corresponding component are also concentrated and are sent to sorter, intensity is high, sorter filters fault data according to the fault threshold preset, and export the result of filtration to display module and shown by display module, current fault basic reason can be positioned, thus optimize its O&M task, guarantee that the availability that IT serves remains on good level.
Accompanying drawing explanation
Fig. 1 is the block diagram of the utility model integration O&M supervisory system.
Label declaration:
11, first user end; 12, the second user side; 13, the 3rd user side;
2, middleware; 3, server; 4, display module; 5, storer;
6, sorter; 71, the first monitoring module; 72, the second monitoring module;
73, the 3rd monitoring module.
Embodiment
By describing technology contents of the present utility model in detail, realized object and effect, accompanying drawing is coordinated to be explained below in conjunction with embodiment.
The design of the utility model most critical is: this programme arranges the first corresponding monitoring module, the second monitoring module and the 3rd monitoring module respectively for the data monitoring of middleware, server and storer, the data of collection corresponding component are also concentrated and are sent to sorter, intensity is high, sorter filters fault data and exports display module to, current fault basic reason can be positioned, thus optimize its O&M task.
Please refer to Fig. 1, integration O&M supervisory system, comprise user side, middleware 2, server 3, storer 5 and display module 4, the quantity of described user side is at least one, described user side is electrically connected with middleware 2, described middleware 2 is electrically connected with server 3, described server 3 is connected to storer 5 and display module 4, also comprise monitor component and sorter 6, described monitor component comprises the first monitoring module 71, second monitoring module 72 and the 3rd monitoring module 73, the input end of described first monitoring module 71 is electrically connected with middleware 2, the input end of described second monitoring module 72 is electrically connected with server 3, the input end of described 3rd monitoring module 73 is electrically connected with storer 5, described first monitoring module 71, the input end of the output terminal difference link sort device 6 of the second monitoring module 72 and the 3rd monitoring module 73, the output terminal of described sorter 6 is electrically connected with display module 4.The user side of Fig. 1 comprises first user end 11, second user side 12 and the 3rd user side 13, this quantity is only illustrating of user side, user side is not limited to three, and special corresponding large enterprise can also divide into groups to user side, to facilitate the management of user side.The management of availability when above-mentioned monitor component concurrent processing amount reaches 2000/second to support opposite end cause for gossip/the go out Key Performance Indicators such as the inbound traffics/discrepancy utilization factor/discrepancy bit error rate/discrepancy packet loss, can monitor each unit status in real time.Above-mentioned storer 5 pairs of databases store.Above-mentioned middleware 2 comprises at least one router or switch or is made up of router and switch.Above-mentioned sorter be by study after can automatically to the device that given data are classified.The first above-mentioned monitoring module, the second monitoring module and the 3rd monitoring module are monitored data and gather fault data, can be realized by data acquisition unit, in concrete mode, in monitoring module, fault data threshold value can be set, exceed fault data threshold portion and data are gathered and uploads.
From foregoing description, the beneficial effects of the utility model are: although can obtain information technoloy equipment for current technology, server, network traffics, the even warning message of storer, but thousands of bar warning message is deposited in the problem that more originally cannot judge particular location together, the utility model provides a kind of integrated O&M supervisory system, mainly comprise monitor component and sorter 6, this monitor component is for middleware, the data monitoring of server 3 and storer 5 arranges the first corresponding monitoring module 71 respectively, second monitoring module 72 and the 3rd monitoring module 73, the data of collection corresponding component are also concentrated and are sent to sorter 6, intensity is high, sorter 6 filters fault data according to the fault threshold preset, and export the result of filtration to display module 4 and shown by display module 4, current fault basic reason can be positioned, thus optimize its O&M task, guarantee that the availability that IT serves remains on good level.
In specific embodiment, described sorter 6 comprises the first sub-classifier, the second sub-classifier of corresponding second monitoring module 72 setting and the 3rd sub-classifier of corresponding 3rd monitoring module 73 correspondence setting that corresponding first monitoring module 71 is arranged.Corresponding respective monitoring module of each sub-classifier and arranging, is responsible for the process of corresponding fault data, is convenient to improve treatment effeciency.The kind of sub-classifier is not only confined to three kinds, can design according to the actual requirement of user.
As an embodiment, the second sensing module also comprising router, be arranged at the first sensing module in server 3 and be arranged at outside server 3, described first sensing module comprises temperature sensor and humidity sensor, described sorter also comprises the 4th sub-classifier, described first sensing module and router wireless connections, and be connected with the 4th sub-classifier by router.Described second sensing module comprises temperature sensor and humidity sensor, described second sensing module and router wireless connections, and is connected with the 4th sub-classifier by router.Temperature sensor in first sensing module and humidity sensor can carry out data acquisition to the temperature of server 3 inside and humidity and send into the 4th sorter processing, can the abnormal conditions of Timeliness coverage server 3 internal environment, the internal temperature caused not in time as dispelled the heat raises, the situations such as water enters in server, be convenient to timely maintenance, guarantee the normal operation of server 3; Temperature sensor in second sensing module and humidity sensor can carry out data acquisition to the temperature of server 3 outside and humidity and send into the 4th sorter processing, can the abnormal conditions of Timeliness coverage server 3 external environment condition, as place server machine room in the situation such as have fire or water to enter in machine room, be convenient to Timeliness coverage dangerous situation, Deterministic service device 3 normally works.
As an embodiment, the radio connection of described temperature sensor and humidity sensor and router is bluetooth, WIFI, radio frequency or other radio connection.The mode of wireless connections is more convenient compared with wired connection, and can not take wiring space, more easily realizes.Certainly, above-mentioned temperature sensor and humidity data can arrange one or more according to specific requirement.
As an embodiment, also comprise memory module, described memory module is electrically connected with display module 4.Memory module carries out record to fault data, is convenient to same consulting.
As an embodiment, described first monitoring module 71, second monitoring module 72 and the 3rd monitoring module 73 support any one or more than one procotol acquisition monitoring data in SNMP, TELNET, SSH, Syslog, Trap, Netflow, WMI and Push-Agent.Integrate multiple parameter acquisition Function Integration Mechanism, compatible good.
Embodiment one
Integration O&M supervisory system, comprise first user end 11, second user side 12, 3rd user side 13, middleware 2, server 3, storer 5 and display module 4, described first user end 11, second user side 12, 3rd user side 13 is electrically connected with middleware 2 respectively, described middleware 2 is electrically connected with server 3, described server 3 is connected to storer 5 and display module 4, also comprise monitor component and sorter 6, described monitor component comprises the first monitoring module 71, second monitoring module 72 and the 3rd monitoring module 73, the input end of described first monitoring module 71 is electrically connected with middleware 2, the input end of described second monitoring module 72 is electrically connected with server 3, the input end of described 3rd monitoring module 73 is electrically connected with storer 5, described first monitoring module 71, the input end of the output terminal difference link sort device 6 of the second monitoring module 72 and the 3rd monitoring module 73, the output terminal of described sorter 6 is electrically connected with display module 4, and be provided with the first sub-classifier in sorter 6, second sub-classifier and the 3rd sub-classifier, first monitoring module 71 is responsible for the data traffic of monitoring middleware 2 and gathers fault data, the data traffic of the second monitoring module 72 monitoring server 3 also gathers the data traffic of database in fault data and the 3rd monitoring module 73 monitoring memory 5 and gathers fault data, the monitor component coding of all kinds of fault data and correspondence is sent in sub-classifier corresponding in sorter by parallel mode, sub-classifier screens by the fault threshold self preset the fault data leaving part and exceed fault threshold to fault data, and the feeding display module of corresponding for the fault data crossing fault threshold monitor component coding is shown, can quick position fault generation part.
In sum, the integrated O&M supervisory system that the utility model provides, adopt at middleware, the data monitoring of server and storer arranges the first corresponding monitoring module respectively, second monitoring module and the 3rd monitoring module, the data of collection corresponding component are also concentrated and are sent to sorter, intensity is high, convenient management, the O&M ability of system can be improved, sorter filters fault data and exports display module to, current fault basic reason can be positioned, can quick position warning message, be convenient to Breakdown Maintenance, thus optimize its O&M task.In addition, sorter comprises four sub-classifiers and carries out data management to each parts respectively, is convenient to improve data-handling efficiency, and temperature sensor and humidity sensor can the normal work of Deterministic service device, in addition, this programme also has and conveniently consults and compatible good advantage.
The foregoing is only embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every equivalents utilizing the utility model instructions and accompanying drawing content to do; or be directly or indirectly used in relevant technical field, be all in like manner included in scope of patent protection of the present utility model.
Claims (6)
1. an integrated O&M supervisory system, comprise user side, middleware, server, storer and display module, the quantity of described user side is at least one, described user side is electrically connected with middleware, described middleware is electrically connected with server, described server is connected to storer and display module, it is characterized in that, also comprise monitor component and sorter, described monitor component comprises the first monitoring module, second monitoring module and the 3rd monitoring module, the input end of described first monitoring module is electrically connected with middleware, the input end of described second monitoring module is electrically connected with server, the input end of described 3rd monitoring module is electrically connected with storer, described first monitoring module, the input end of the output terminal difference link sort device of the second monitoring module and the 3rd monitoring module, the output terminal of described sorter is electrically connected with display module.
2. integrated O&M supervisory system according to claim 1, it is characterized in that, described sorter comprises the first sub-classifier, the second sub-classifier of corresponding second monitoring module setting and the 3rd sub-classifier of corresponding 3rd monitoring module correspondence setting that corresponding first monitoring module is arranged.
3. integrated O&M supervisory system according to claim 1, the second sensing module that it is characterized in that, also comprise router, be arranged at the first sensing module in server and be arranged at outside server;
Described first sensing module comprises temperature sensor and humidity sensor, and described sorter also comprises the 4th sub-classifier, described first sensing module and router wireless connections, and is connected with the 4th sub-classifier by router;
Described second sensing module comprises temperature sensor and humidity sensor, described second sensing module and router wireless connections, and is connected with the 4th sub-classifier by router.
4. integrated O&M supervisory system according to claim 3, is characterized in that, described temperature sensor and humidity sensor are that WIFI, bluetooth or infrared radio frequency are connected with the mode of router wireless connections.
5. integrated O&M supervisory system according to claim 1, it is characterized in that, also comprise memory module, described memory module is electrically connected with display module.
6. integrated O&M supervisory system according to claim 5, it is characterized in that, described first monitoring module, the second monitoring module and the 3rd monitoring module support any one or more than one procotol acquisition monitoring data in SNMP, TELNET, SSH, Syslog, Trap, Netflow, WMI and Push-Agent.
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| Application Number | Priority Date | Filing Date | Title |
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| CN201520076076.2U CN204374756U (en) | 2015-02-03 | 2015-02-03 | Integration O&M supervisory system |
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| CN201520076076.2U CN204374756U (en) | 2015-02-03 | 2015-02-03 | Integration O&M supervisory system |
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| CN204374756U true CN204374756U (en) | 2015-06-03 |
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Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105629103A (en) * | 2015-12-23 | 2016-06-01 | 广州市优普计算机有限公司 | Online monitoring method based on transformer substation operation and maintenance network shutdown |
| CN108695075A (en) * | 2015-11-19 | 2018-10-23 | 福建省福工动力技术有限公司 | The super capacitor monitoring system communicated based on CAN bus that can be detected in real time |
-
2015
- 2015-02-03 CN CN201520076076.2U patent/CN204374756U/en not_active Expired - Fee Related
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN108695075A (en) * | 2015-11-19 | 2018-10-23 | 福建省福工动力技术有限公司 | The super capacitor monitoring system communicated based on CAN bus that can be detected in real time |
| CN108695075B (en) * | 2015-11-19 | 2020-04-21 | 福建省福工动力技术有限公司 | CAN bus communication-based super capacitor monitoring system capable of real-time detection |
| CN105629103A (en) * | 2015-12-23 | 2016-06-01 | 广州市优普计算机有限公司 | Online monitoring method based on transformer substation operation and maintenance network shutdown |
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Address after: 350015 room 612, creative building, fast road, science and Technology Park, Fuzhou Development Zone, Fujian Patentee after: FUJIAN GOLDTECH INFORMATION Ltd. Address before: 15, commercial building, No. 23,, Fuzhou, Fujian, Zhongshan Road Patentee before: FUJIAN GOLDTECH INFORMATION LTD. |
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| CF01 | Termination of patent right due to non-payment of annual fee | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20150603 |