CN116843168A - Company-level monitoring system and application - Google Patents

Abstract

The application provides a company-level monitoring system and application, comprising a display layer, an application layer, a data layer, an acquisition layer, a short message platform, a unified authority and a data center all-link, wherein the display layer comprises a scheduling view and an operation and maintenance view; the application layer comprises standing book management, monitoring management, alarm management, defect management, topology display and statistical analysis; the data layer comprises an information system ledger, a basic resource ledger and alarm information; the acquisition layer comprises a company-level standing book system, an internet of things management platform and an alarm inspection tool; the alarm inspection tool, the Internet of things management platform, the short message platform, the unified authority, the data center station full link and the company-level account system are in an integrated relationship. The application realizes unified monitoring index, unified alarm collection, unified monitoring access, unified alarm distribution, unified alarm disposal and unified defect management through the construction of the company-level monitoring system, standardizes the alarm disposal flow of the company information system and equipment, and improves the operation and maintenance management capability of the company information system.

Description

Company-level monitoring system and application

Technical Field

The application relates to the field of data management, in particular to a company-level monitoring system and application.

Background

The following problems exist with existing corporate level monitoring systems: in the monitoring of alarms, a part of monitoring objects (middleware and database) are informed that a plurality of sets of monitoring tools exist for alarms; the three types of alarm information are not converged, and associated analysis cannot be carried out, so that the positioning and analysis of abnormal events are not facilitated; at present, in addition to monitoring I6000 and a scheduling monitoring platform, the information scheduling needs to monitor on-off alarms of unified video, and alarm signals are concentrated as much as possible, so that the workload of scheduling monitoring personnel is reduced; important business indexes (marketing 2.0, using CDH) do not carry out alarm classification and access,

in the treatment of the alarm signal, the alarm of the notification class is not centrally managed, the treatment and the closed-loop mechanism of the alarm are absent, and a supervision means is absent for the treatment condition of the alarm of the notification class; when the information scheduling is used for alarming, the queried system account is an off-line form, and the problems of data updating lag and inaccurate data exist, such as system off-line and untimely updating of the system account after the system responsible person changes; the defects are manually recorded in a defect management module of the information operation and maintenance auxiliary tool at present, but the information operation and maintenance auxiliary tool is early to build and cannot be integrated with unified authorities, so that automatic association with alarms is not realized; in the alarm monitoring configuration, after the system resource is newly added, if no alarm is newly added, the information scheduling cannot confirm that the monitoring is completed.

For example: the Chinese utility model patent/utility model patent (application number: CN 201710014832.2) discloses a general electric power enterprise data analysis platform based on a national network index system, and the specification thereof discloses: the analysis targets of the data analysis of the power enterprises vary widely, and the raw data used for the data analysis are also different. At present, an electric power enterprise needs to independently construct a data analysis informationized construction project for carrying out a thematic business data analysis. Each data analysis informatization project is provided with data import, data cleaning, data conversion, data management, data analysis and result display, and the complexity and hysteresis of the data analysis caused by different data sources are inconvenient for the management of the whole power system; the above patent can be used to demonstrate the drawbacks of the prior art. Therefore, we make improvements to this and propose a company-level monitoring system and application.

Disclosure of Invention

The utility model aims at: the method aims at solving the problem that the operation and maintenance management capacity of the company information system is poor due to the fact that the alarm handling flow of the company information system and equipment is not standardized at present. In order to achieve the above object, the present utility model provides the following corporate level monitoring system and application to improve the above problems. The utility model is specifically as follows:

A company-level monitoring system, which comprises a display layer, an application layer, a data layer, an acquisition layer, a short message platform, a unified authority and a data center all-link,

the display layer comprises a scheduling view and an operation and maintenance view; the application layer comprises standing book management, monitoring management, alarm management, defect management, topology display and statistical analysis; the data layer comprises an information system ledger, a basic resource ledger and alarm information; the acquisition layer comprises a company-level standing book system, an internet of things management platform and an alarm inspection tool; the alarm inspection tool, the Internet of things management platform, the short message platform, the unified authority, the data center station full link and the company-level account system are in an integrated relationship.

As a preferable technical scheme of the application, the ledger management obtains the information of the ledgers of the monitoring objects (information systems, network equipment, host equipment, databases, middleware and the like) from the company-level ledger system and takes the information as an authoritative data source of the monitoring objects; the company-level ledger system pushes system online and offline information and equipment return and delivery information in real time to be used as a data source for monitoring configuration changes.

As a preferable technical scheme of the application, the monitoring management completes the configuration work of monitoring the company on-line and off-line systems and resources, including the monitoring configuration of the system on-line and off-line, the monitoring configuration of equipment delivery and return and the monitoring configuration of newly-added resources on the transportation system; the monitoring management comprises the steps of newly-built system online, information system offline, newly-increased resources in a transportation system and equipment withdrawal.

As a preferred technical solution of the present application, the alarm management includes: the alarm collection is integrated with an alarm inspection tool, an internet of things management platform and a data center station all-link tool, so that the collection of alarms of various monitoring objects is realized; the alarm distribution is carried out, namely the alarm distribution is carried out to a dispatching view and an operation and maintenance view for classified display according to different alarm grades, wherein fault and abnormal alarms are distributed to the dispatching view, and the alarms are informed to be distributed to the operation and maintenance view; alarm disposal, wherein three types of alarms are circulated in a company-level monitoring platform in the form of a work order; the alarm and maintenance linkage is carried out, and the information system, the equipment and the maintenance plan are associated; and the alarm check is used for checking the consistency of alarm signal logics of different sources.

As a preferable technical scheme of the application, the defect management is implemented by constructing a company information system defect library to form a unified defect management flow and carrying out closed loop circulation in the form of a defect work order.

As a preferable technical scheme of the application, the topology display synchronizes the system and the resource information from the company-level ledger system, automatically generates a system topology diagram according to the association relation between the monitored resources and the system, and comprehensively displays the operation mode of the system.

As a preferable technical scheme of the application, the statistical analysis comprises alarm statistical analysis, statistics of the number, level and duration of alarms in a specified time range of a service system, sequencing according to the dimensionalities of the number of alarms and the like, and displaying the running quality and the disposal efficiency of the system through the data; and (3) carrying out statistical analysis on the system and the equipment, and calculating the conditions of running the application system and the equipment within a specified time range.

As a preferable technical scheme of the application, the alarm inspection tool and the Internet of things management platform are as follows: integrating with the alarm inspection tool and the Internet of things management platform, and receiving the alarm information of a company information system, a physical server, network equipment, security equipment, storage, backup, an operating system, a database, middleware and a machine room; and the data center station full-link monitoring tool receives the data center station alarm information. And the company-level ledger system synchronizes basic information of the information system, ledger information of the software and hardware resources and association relation between the information system and the software and hardware resources. And unified authority is realized, standardized configuration of the authority is realized, and unified management of account numbers of login users is facilitated.

The utility model provides a company-level supervisory equipment, includes the casing, the inside of casing is equipped with the mainboard, show layer, application layer and data layer all store in the mainboard, the below of mainboard is equipped with the battery, the inside top of casing is equipped with the concatenation interface, the inside bottom of casing is equipped with the concatenation plug, realizes the front end of casing is equipped with switching mechanism, switching mechanism's front end is equipped with a plurality of transmission plug, the rear end of casing is equipped with transmission interface.

As a preferable technical scheme of the application, the switching mechanism comprises a switching component, a moving component is arranged on one side, close to the main board, of the switching component, a transmission component is arranged on the side of the moving component, a driving cover is arranged on one side of the transmission component, and the driving cover extends to the outside of the shell.

As the preferable technical scheme of the application, the splicing interface comprises a first mounting plate positioned at the top end inside the shell, a first jack and a second jack positioned at the front side of the first jack are fixedly arranged at the top of the first mounting plate, the tops of the first jack and the second jack penetrate through the shell, the splicing plug comprises a second mounting plate arranged at the bottom end inside the shell, a first inserting sheet and a second inserting sheet are fixedly arranged at the bottom end of the second mounting plate, and the first inserting sheet is positioned at the rear side of the second inserting sheet.

As the preferable technical scheme of the application, the switching component comprises a rotating seat, a toothed ring is arranged on the circumference side of the rear end of the rotating seat, a transmission ring is fixedly arranged in the middle of the switching component, a plurality of installation cavities positioned on the circumference side of the transmission ring are formed in the rotating seat, clamping sleeves are inserted into one sides of the front ends of the installation cavities far away from the transmission ring, elastic components are arranged in the installation cavities, a plurality of first conductive rings are embedded in the transmission ring, the inner diameters of the first conductive rings are gradually reduced from back to front, elastic conductive sheets are arranged in the first conductive rings, coaxial plugs are further arranged in the transmission ring, a plurality of second conductive rings are embedded on the circumference side of the coaxial plugs, the outer diameters of the second conductive rings are gradually reduced from back to front, and the second conductive rings are in one-to-one correspondence with the first conductive rings and are in contact with the elastic conductive sheets on the second conductive rings.

As a preferable technical scheme of the application, the elastic component comprises a plurality of first sliding grooves formed in the rear side of the installation cavity and a plurality of second sliding grooves formed in the front side of the installation cavity, the second sliding grooves and the first sliding grooves are in one-to-one correspondence, springs are arranged between the second sliding grooves and the first sliding grooves which correspond to each other, rotating wheels are arranged at the ends of the springs, two ends of each rotating wheel are respectively and slidably connected with the second sliding grooves and the first sliding grooves, adjacent rotating wheels are respectively positioned on different sides of the installation cavity, a transmission line is fixedly arranged at the rear end of the transmission plug, and the transmission line passes through the clamping sleeve and then sequentially bypasses the rotating wheels to be fixedly connected with the transmission ring.

According to the technical scheme, the movable assembly comprises a swivel rotatably connected to the middle of the rear end of a rotating seat, an extension rod is fixedly arranged at the top end of the swivel, a rack is fixedly arranged at the top of the extension rod, a transmission gear is meshed above the rack, a screw rod is arranged at the front end of the transmission gear, mounting plates are rotatably arranged at two ends of the screw rod, the rear end of the screw rod is fixedly connected with the transmission gear through a transmission shaft penetrating through the mounting plates at the rear end, the tops of the two mounting plates are fixedly connected with the inner wall of a shell, an active pulling plate is connected onto the screw rod in a threaded manner, a T-shaped sliding rail is arranged above the screw rod, two ends of the T-shaped sliding rail are fixedly connected with the two mounting plates respectively, a T-shaped groove is formed in the top of the active pulling plate, the active pulling plate is in sliding connection with the T-shaped sliding rail through the T-shaped groove, and a clamping groove is formed in the bottom of the active pulling plate, and the passive pulling plate is located inside the clamping groove.

As the preferable technical scheme of the application, the transmission assembly comprises a sliding sleeve sleeved on the extension rod, an L-shaped rod is fixedly arranged on one side of the sliding sleeve, a first connecting rod is fixedly arranged on one side of the end part of the L-shaped rod, an inner gear is fixedly arranged on the end part of the first connecting rod, a second connecting rod is fixedly arranged on the end part of the inner gear, an external gear is meshed with the outer gear, the outer gear is rotationally connected with the rotating seat through a bracket, the outer part of the outer gear is meshed with the toothed ring, and a knob is fixedly arranged on the end part of the second connecting rod.

As the preferable technical scheme of the application, the side of the shell is provided with the opening, the driving cover comprises a protection plate rotationally arranged in the opening, one side, far away from the connection with the shell, of the protection plate is provided with an opening groove, one side, close to the connection position, of the protection plate is fixedly provided with two driving pieces positioned in the shell, the two driving pieces extend to one side, close to the moving assembly, of the knob, and the second connecting rod is positioned between the two driving pieces.

Compared with the prior art, the application has the beneficial effects that:

1. in order to solve the problem of poor operation and maintenance management capability of a company information system caused by the fact that alarm disposal flows of the company information system and equipment in the prior art are not standardized, the application realizes unified monitoring indexes, unified alarm acquisition, unified monitoring access, unified alarm distribution, unified alarm disposal and unified defect management through construction of a company-level monitoring system, standardizes the alarm disposal flows of the company information system and equipment, and improves the operation and maintenance management capability of the company information system;

2. Three types of alarm information of various monitoring objects are converged to a company-level monitoring platform in a unified way, the company-level monitoring platform distributes alarms according to grades, alarm signals of faults and abnormal types are pushed to a scheduling view, and alarm signals of informing types are pushed to an operation and maintenance view; developing an alarm multidimensional analysis function on a company-level monitoring platform, realizing the association analysis of alarms and improving the positioning and analysis capacity of abnormal events; the organization application center completes alarm analysis on important business indexes (marketing 2.0 and CDH) and promotes access to a company-level monitoring platform; the organization network security center completes the on-off alarm of the unified video to be incorporated into the company-level monitoring, and solves the problem that a plurality of monitoring tools exist in the notification type alarm of part of monitoring objects (middleware and database) in the prior art; the three types of alarm information are not converged, and associated analysis cannot be carried out, so that the positioning and analysis of abnormal events are not facilitated; at present, in addition to monitoring I6000 and a scheduling monitoring platform, the information scheduling needs to monitor on-off alarms of unified video, and alarm signals are concentrated as much as possible, so that the workload of scheduling monitoring personnel is reduced; important business indexes (marketing 2.0, CDH is adopted) do not carry out alarm classification and access;

3. Centralized management of notification alarms is achieved based on a company-level monitoring system, the notification alarms are pushed to an operation and maintenance view in a work order form, and after alarm treatment is finished, the notification alarms are submitted by operation and maintenance personnel, and after verification and confirmation of a system responsible person are finished, a closed-loop mechanism is formed; alarming of faults and abnormal types, sending information scheduling to an operation and maintenance view by using a defect work order, and transferring information scheduling after operation and maintenance personnel and a system (equipment) responsible person process and process are completed, so as to realize closed loop; based on a company-level monitoring system, strengthening analysis and management of each center of frequently generated notification alarm organizations, and improving operation and maintenance level; the company-level monitoring system is integrated with the company-level ledger system, and the ledgers of the information system, the hardware equipment, the virtual resources and other types are synchronized to the company-level monitoring system in real time, so that the automatic association is realized when an alarm is generated, and the quick positioning of the alarm is facilitated; the defect management module is developed in the company-level monitoring system, the alarm signal is used as an information source of defects, the linkage of the alarm and the defects is realized, the working efficiency is improved, the problem that the alarm of the notification class is not centrally managed, the alarm disposal and the closed-loop mechanism are lacked, and the supervision means is lacked for the disposal condition of the notification class alarm in the prior art is solved; when the information scheduling is used for alarming, the queried system account is an off-line form, and the problems of data updating lag and inaccurate data exist, such as system off-line and untimely updating of the system account after the system responsible person changes; the defect is that the input is manually performed in a defect management module of the information operation and maintenance auxiliary tool at present, but the information operation and maintenance auxiliary tool is early to build and cannot be integrated with the unified authority, so that the problem of automatic association with the alarm is not realized;

4. When the next system overhaul after the resource allocation is needed by the system operation and maintenance department, the alarm test is carried out by combining with the information scheduling, so that the access of the resources is confirmed, and the problem that the information scheduling cannot confirm that the access of the monitoring is completed after the new addition of the system resources in the prior art is solved if no new alarm is added;

5. through the switching mechanism that sets up, realized carrying out the model of switching transmission plug according to different terminals, solved among the prior art terminal type different, the interface that uses also different problem on the terminal.

Drawings

FIG. 1 is a schematic view of a monitoring range of a company-level monitoring system according to the present application; FIG. 2 is a schematic diagram of the classification of alarms in a corporate level monitoring system provided by the present application; FIG. 3 is a flow chart of the processing of an alarm signal in the prior art; FIG. 4 is a schematic diagram of a prior art alarm monitoring configuration; FIG. 5 is a schematic diagram of the overall architecture of a corporate level monitoring system provided by the present application; FIG. 6 is a flow chart of a system on-line monitoring configuration in a company-level monitoring system provided by the application; FIG. 7 is a flowchart of a system offline monitoring configuration in a company-level monitoring system according to the present application; FIG. 8 is a flow chart of an on-the-fly system newly added resource monitoring configuration; FIG. 9 is a flow chart of a configuration of equipment retirement monitoring in a corporate level monitoring system provided by the present application;

FIG. 10 is a flow chart of an alert information collection service; FIG. 11 is a flow chart of alarm distribution in a corporate level monitoring system provided by the present application; FIG. 12 is a flow chart for fault and anomaly type alert handling; FIG. 13 is a flow chart of a notification class alert handling in a corporate level monitoring system provided by the present application; FIG. 14 is a flow chart of an alarm and service linkage; FIG. 15 is a flow chart of defect management in a corporate level monitoring system provided by the present application; FIG. 16 is a diagram showing a topology in a corporate level monitoring system provided by the present application; FIG. 17 is a schematic diagram of a corporate level monitoring device provided by the present application; FIG. 18 is a schematic diagram of the internal structure of the company level monitoring device provided by the present application; FIG. 19 is a schematic diagram of a switching mechanism in a corporate level monitoring device provided by the present application; FIG. 20 is a schematic diagram of a switching assembly in a corporate level monitoring device according to the present application; FIG. 21 is a schematic diagram of the construction of an elastic component in a company-level monitoring device provided by the present application; FIG. 22 is a schematic diagram of a mobile component in a corporate level monitoring device provided by the present application; fig. 23 is a schematic view of the structure of the transmission assembly and the drive cap.

The figures indicate:

1. a housing; 2. a main board; 3. a storage battery; 4. a switching assembly; 41. a rotating seat; 42. a mounting cavity; 43. a first chute; 44. a toothed ring; 45. a passive plectrum; 46. a spring; 47. a rotating wheel; 48. a transmission ring; 49. a transmission line; 410. a slide hole; 411. a coaxial plug; 412. a second chute; 413. a cutting sleeve; 5. a transmission plug; 6. a transmission interface; 7. splicing interfaces; 71. a first mounting plate; 72. a jack I; 73. a second jack; 8. a splice plug; 81. a second mounting plate; 82. a first inserting piece; 83. a second inserting piece; 9. a moving assembly; 91. a screw rod; 92. a mounting piece; 93. a transmission gear; 94. an active pulling piece; 95. a T-shaped groove; 96. a T-shaped slide rail; 97. a rack; 98. an extension rod; 99. a swivel; 10. a transmission assembly; 101. a sliding sleeve; 102. an L-shaped rod; 103. a first connecting rod; 104. an internal gear; 105. an external gear; 106. a second connecting rod; 107. a knob; 11. a driving cover; 111. a protection plate; 112. opening the groove; 113. and a driving plate.

Detailed Description

In order that those skilled in the art will better understand the present invention, a technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in which it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present invention without making any inventive effort, shall fall within the scope of the present invention.

The construction range is as follows:

first, the object to be monitored

The monitoring range of the company-level monitoring system is 12 types of information system, equipment and infrastructure deployed in a company information machine room, including an information system, a physical server, network equipment, security equipment, storage, backup, an operating system, a database, middleware, a data center link, a machine room and important business monitoring.

(II) Classification of alarms

Alarms are mainly divided into two categories: the system mainly ensures national network operation indexes, wherein the national network examination indexes refer to a system facing to the recording of national networks; the internal warning of the company is aimed at all in-transit systems, devices and infrastructures, and is mainly used for guaranteeing the safe operation of the systems, the devices and the infrastructures.

The internal alarms of a company are classified into three categories according to the degree of urgency affecting an information system: failure, abnormality, notification.

Fault (class 1): and information reflecting whether the service is interrupted, whether the system is available and whether the index is normal. Such as indicators of whether the system health duration is growing, whether the service probe is normal, etc. Abnormality (class 2): reflecting availability information of a single device, virtual device, accessory, software, interface, if not handled, would cause a service disruption. Such as switch board status, whether the host is accessible, whether the interface is accessible, whether the database is connectable, whether the middleware process status is normal, etc. Notification (class 3): some index of the system or device requires information that is of interest or process, such as not processing an exception. Such as CPU usage, disk usage, etc.

Demand analysis:

monitoring of alarms

1. Flow current state carding

(1) National net checking index

The information scheduling uses I6000 as the monitored object of the information system recorded in the national network, and four monitored alarm information items are health running time, page response codes, online user numbers and system availability respectively.

Logic to generate an alarm: the normal condition of the healthy operation time length is increased at intervals of 5 minutes, if the index value is the same or the negative increase condition of more than 2 continuous time points is the index abnormality, the bubbles turn red, and an alarm is generated; the normal value of the page response code is 200, other values are abnormal indexes, bubbles turn red, and an alarm is generated; the number of online users usually appears at the same time as the interruption of the operation time length, and the online users do not individually alarm; and monitoring the availability of the system, and checking the availability state of the accessed system through a performance monitoring page.

(2) Intra-company alarm

1) Alarm for fault and abnormality

The information scheduling is monitored by using a scheduling monitoring platform. The monitored objects include information systems, networks, hosts (physical servers, virtual machines, ECSs), middleware, databases, rotating rings, and data center stations. The information scheduling monitoring platform takes a company monitoring index system as a guide, and triggers alarm information according to a threshold defined by the system.

2) Alert informing class

The notification class of the various monitoring objects alarms are monitored as shown in the following table:

2. problems exist

(1) The notification class of part of monitoring objects (middleware and database) alarms that a plurality of monitoring tools exist; (2) The three types of alarm information are not converged, and associated analysis cannot be carried out, so that the positioning and analysis of abnormal events are not facilitated; (3) At present, in addition to monitoring I6000 and a scheduling monitoring platform, the information scheduling needs to monitor on-off alarms of unified video, and alarm signals are concentrated as much as possible, so that the workload of scheduling monitoring personnel is reduced; (4) Important business indexes (marketing 2.0, using CDH) are not classified and accessed by alarms.

3. Solving the thinking

(1) Three types of alarm information of various monitoring objects are converged to a company-level monitoring platform in a unified way, the company-level monitoring platform distributes alarms according to grades, alarm signals of faults and abnormal types are pushed to a scheduling view, and alarm signals of informing types are pushed to an operation and maintenance view; (2) Developing an alarm multidimensional analysis function on a company-level monitoring platform, realizing the association analysis of alarms and improving the positioning and analysis capacity of abnormal events; (3) The organization application center completes alarm analysis on important business indexes (marketing 2.0 and CDH) and promotes access to a company-level monitoring platform; the organization network security center completes the on-off alarm of the unified video to be incorporated into the company-level monitoring.

Treatment of alert signals

1. Flow current state carding

(1) Localization of alarms

Positioning national network assessment indexes, faults and abnormal alarms: when an operator on duty finds an alarm, the information dispatching desk preliminarily judges whether the alarm is caused by overhaul or not by combining the overhaul development condition in the I6000 system; if alarms of different sources (such as alarms sent by a host and middleware) are received in a short time, an operator on duty carries out alarm check, judges the consistency of alarm signal logics of the different sources, and if the logics are consistent, carries out alarm association.

(2) Notification of alarms

Informing national network assessment indexes, faults and abnormal alarms: when the information dispatching desk on-duty personnel confirms the system and the system responsible person to which the alarm belongs by inquiring the address book and the information system account according to the information such as the IP address, the equipment name, the system name and the like in the alarm content, the information dispatching desk informs the system responsible person, and communicates and confirms the alarm influence range.

The attendant sends the short message to related personnel according to the company requirement, creates a defective work order in the information operation and maintenance auxiliary tool, and distributes the defective work order to a system responsible person. If related events of superior, external units and customer service are involved, the event is executed according to the work requirement of reporting the information system and the network security event of the national electric network Limited company.

(3) Tracking of alert treatment progress

Tracking national network assessment indexes, faults and abnormal alarm treatment progress: in the alarm unrecovered process, the information scheduling attendant communicates with the system responsible person and the site disposal personnel every 2 hours to grasp the disposal progress condition and reports short messages to related personnel according to the company requirements.

(4) Alarm conclusion

The completion of national network assessment indexes, faults and abnormal alarms: the system responsible person and the site disposal person inform that the information scheduling alarm is recovered, and the information scheduling is checked and confirmed by the I6000 and the scheduling monitoring platform to eliminate the alarm, and the related personnel are sent by the short message.

(5) Closed loop of defects

After completing alarm treatment, a system responsible person supplements and perfects the cause, treatment measures and fault analysis report generated by the corresponding defects in the information operation and maintenance auxiliary tool, submits information scheduling audit, and completes the closed loop of the defects after the information scheduling audit passes.

2. Problems exist

(1) Informing alarms of the class are not managed in a centralized way, lack of alarm handling and closed-loop mechanisms and lack of supervision means for informing the handling conditions of the alarms of the class; (2) When the information scheduling is used for alarming, the queried system account is an off-line form, and the problems of data updating lag and inaccurate data exist, such as system off-line and untimely updating of the system account after the system responsible person changes; (3) The defect is that the information operation and maintenance auxiliary tool is manually recorded in a defect management module at present, but the information operation and maintenance auxiliary tool is early in construction and cannot be integrated with the unified authority, so that the automatic association with the alarm is not realized.

3. Solving the thinking

(1) Based on a company-level monitoring system, the centralized management of notification type alarms is realized, the notification type alarms are pushed to an operation and maintenance view in a work order form, and after the alarm treatment is finished, the notification type alarms are submitted by operation and maintenance personnel and are finished after the system responsible person checks and confirms, so that a closed-loop mechanism is formed; (2) And alarming of faults and abnormal types, dispatching information to an operation and maintenance view by using a defect work order, and returning the information to dispatching information after the operation and maintenance personnel and a system (equipment) responsible person process and process are completed, so that closed loop is realized. (3) Based on a company-level monitoring system, strengthening analysis and management of each center of frequently generated notification alarm organizations, and improving operation and maintenance level; (4) The company-level monitoring system is integrated with the company-level ledger system, and the ledgers of the information system, the hardware equipment, the virtual resources and other types are synchronized to the company-level monitoring system in real time, so that the automatic association is realized when an alarm is generated, and the quick positioning of the alarm is facilitated; (5) The defect management module is developed in the company-level monitoring system, the alarm signal is used as an information source of defects, the linkage of the alarm and the defects is realized, and the working efficiency is improved.

(III) monitoring configuration of alarms

1. Flow current state carding

(1) Access for monitoring

Before the information system is on line, the system operation and maintenance department is responsible for accessing alarm signals of various monitoring objects of a newly built system to a company-level monitoring platform, carrying out an alarm test by information scheduling against the requirement of an on-line test operation inspection sheet, inspecting the alarm validity, and signing on the on-line test operation inspection sheet after inspection confirmation.

(2) Revocation of monitoring

When the information system is off line, the operation and maintenance department of the system cancels the service monitoring and the system monitoring and informs the information scheduling, the information scheduling develops an alarm test, and the information scheduling is signed on an information system off line confirmation list after confirmation.

And in the resource vacation stage, a demand department initiates, information is scheduled and audited in a running mode (audit account name and topology framework), and monitoring of vacated resources is canceled on a scheduling and monitoring platform.

(3) Verification of alarms

Alarm checking is used to check the consistency of alarm signal logic from different sources. When the alarm information logics of different sources are consistent, carrying out alarm association; when the alarm information logics of different sources are inconsistent, checking whether the monitored objects and the topology structures of the two parties are consistent, and informing a system responsible person of correcting the standing book information.

2. Problems exist

After the system resource is newly added, if no new alarm exists, the information scheduling can not confirm that the monitoring is completed.

3. Solving the thinking

And the system operation and maintenance department performs an alarm test in combination with information scheduling when the next system overhaul after the resource allocation is performed, so as to confirm that the resource is accessed to monitor.

As described in the background art, in the alarm monitoring, a part of monitoring objects (middleware and database) are informed that a plurality of monitoring tools exist for alarming; the three types of alarm information are not converged, and associated analysis cannot be carried out, so that the positioning and analysis of abnormal events are not facilitated; at present, in addition to monitoring I6000 and a scheduling monitoring platform, the information scheduling needs to monitor on-off alarms of unified video, and alarm signals are concentrated as much as possible, so that the workload of scheduling monitoring personnel is reduced; important business indexes (marketing 2.0, using CDH) do not carry out alarm classification and access,

In the treatment of the alarm signal, the alarm of the notification class is not centrally managed, the treatment and the closed-loop mechanism of the alarm are absent, and a supervision means is absent for the treatment condition of the alarm of the notification class; when the information scheduling is used for alarming, the queried system account is an off-line form, and the problems of data updating lag and inaccurate data exist, such as system off-line and untimely updating of the system account after the system responsible person changes; the defects are manually recorded in a defect management module of the information operation and maintenance auxiliary tool at present, but the information operation and maintenance auxiliary tool is early to build and cannot be integrated with unified authorities, so that automatic association with alarms is not realized;

in the alarm monitoring configuration, after the system resource is newly added, if no alarm is newly added, the information scheduling cannot confirm that the monitoring is completed; in conclusion, the problem of poor operation and maintenance management capability of the company information system is caused.

In order to solve the technical problem, the invention provides a company-level monitoring system and application thereof, which are applied to the field of data management.

Specifically, referring to fig. 5, the company-level monitoring system specifically includes: the system comprises a display layer, an application layer, a data layer, an acquisition layer, a short message platform, a unified authority and a data center all-link, wherein the display layer comprises a scheduling view and an operation and maintenance view; the application layer comprises standing book management, monitoring management, alarm management, defect management, topology display and statistical analysis; the data layer comprises an information system ledger, a basic resource ledger and alarm information; the acquisition layer comprises a company-level standing book system, an internet of things management platform and an alarm inspection tool; the alarm inspection tool, the Internet of things management platform, the short message platform, the unified authority, the data center station full link and the company-level account system are in an integrated relationship.

The company-level monitoring system provided by the invention standardizes the alarm handling flow of the company information system and equipment, and improves the operation and maintenance management capacity of the company information system. The system is positioned as the monitoring full coverage and alarm full access of all the in-transit systems of the company, and the users of the system comprise three centers of a company leader, a management department (technical issue department and security supervision department), information scheduling and information. For the needs of different users, the company-level monitoring system focuses on constructing two types of views, namely a scheduling view (the user is an information scheduling dispatcher) and an operation and maintenance view (the user is an information three-center operation and maintenance person). The scheduling view takes centralized display and treatment of alarms (faults and abnormal classes) as main functions, and associates topology display, overhaul linkage, defect management, resource monitoring management, statistical analysis and the like. The operation and maintenance view main functions comprise alarm (notification class) centralized display, defect worksheets and alarm disposal functions. The functions implemented in the above views support free combination in modular form.

In order to make the person skilled in the art better understand the solution of the present invention, the technical solution of the embodiment of the present invention will be clearly and completely described below with reference to the accompanying drawings. It should be noted that, under the condition of no conflict, the embodiments of the present invention and the features and technical solutions in the embodiments may be combined with each other. It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.

Example 1

Referring to fig. 1 and 5, a corporate level monitoring system, where the ledger management obtains information of ledgers of monitoring objects (information systems, network devices, host devices, databases, middleware, etc.) from the corporate level ledger system as authoritative data sources of the monitoring objects; the company-level ledger system pushes system online and offline information and equipment return and delivery information in real time to be used as a data source for monitoring configuration changes.

Referring to fig. 6, fig. 7, fig. 8 and fig. 9, a monitoring system for a company, wherein the monitoring management is used for completing the configuration work of monitoring a company on-line and a resource, and comprises the monitoring configuration of system on-line and off-line, the monitoring configuration of equipment delivery and return, and the monitoring configuration of newly-added resources on the transportation system; the monitoring management comprises the steps of newly-built system online, information system offline, newly-increased resources in a transportation system and equipment withdrawal.

New system on-line (as shown in figure 6)

In the online application stage of the newly built system, information scheduling is responsible for completing running mode auditing. After the auditing is completed, the company-level ledger system pushes ledger information of the newly-built system and the newly-added resources. And carrying out alarm test work by an information scheduling and operation maintenance responsible person, and carrying out validity check on the alarm information. And the information scheduling starts the active detection function of the new system and the newly-added resources, and the monitoring access work of the new system is completed.

Information system offline (as shown in fig. 7)

In the offline application stage of the newly built system, information scheduling is responsible for completing running mode auditing. After the auditing is completed, the company-level ledger system pushes the offline system and the offline information of the affiliated resources. The operation and maintenance responsible person cancels the alarm configuration of the offline system and the affiliated resources. The company-level monitoring system automatically closes the system and the active detection function of the affiliated resource to complete the monitoring cancellation work of the system.

New resources in the shipping system (as shown in figure 8)

In the resource application stage, information scheduling is responsible for completing running mode auditing. After the auditing is completed, the company-level ledger system pushes ledger information of the newly-added resources to the company-level monitoring platform. And carrying out alarm test work by an information scheduling and operation maintenance responsible person, and carrying out validity check on the alarm information. And the information scheduling starts an active detection function of the newly added resource and completes the monitoring access work of the newly added resource.

Equipment return (as shown in figure 9)

In the equipment offline application stage, information scheduling is responsible for completing running mode auditing. After the auditing is completed, the company-level ledger system pushes ledger information of the offline resource. The operation and maintenance responsible person cancels the alarm configuration of the offline resource. The company-level monitoring system automatically closes the active detection function of the offline resource to complete the monitoring cancellation work of the offline equipment.

Referring to fig. 10, 11, 12, 13 and 14, a corporate level monitoring system, the alarm management includes

The alarm collection is realized by integrating an alarm patrol tool, an internet of things management platform and a data center station all-link tool (shown in figure 10);

the alarm distribution is carried out, namely the alarm distribution is carried out to a dispatching view and an operation and maintenance view for classified display according to different alarm grades, wherein fault and abnormal alarms are distributed to the dispatching view, and the alarms are informed to be distributed to the operation and maintenance view; the newly added alarms are popped up in real time in an acousto-optic mode (as shown in fig. 11), the alarms of different levels are distinguished by colors (red, orange and yellow), and the alarm content comprises types, system and equipment information (names, IP addresses, system and equipment owners and the like) and alarm time; the historical alarms are displayed in a list form, including alarm types, alarm grades, system and equipment information, alarm time, treatment progress and the like, and support multidimensional inquiry;

alarm disposal, wherein three types of alarms are circulated in a company-level monitoring platform in the form of a work order; for fault and abnormal alarm information, as shown in fig. 12, after the information scheduling monitoring discovers that the telephone informs the operation and maintenance responsible person, a defective work order is created, the defective work order is distributed to the operation and maintenance responsible person of the system or the equipment, the information scheduling audit is submitted after the operation and maintenance responsible person of the system or the equipment finishes the treatment, the work order is returned to the work order treatment link if the information scheduling audit is not passed, and the work order is finished if the information scheduling audit is passed. In the work order processing link, the information scheduling tracks the processing progress of the work order once every 2 hours, and the work order can be closed after the temporary defect work order is thoroughly processed; for the notification type alarm information (shown in fig. 13), monitoring and finding by an operation and maintenance responsible person, creating a defective work order, distributing to a system or equipment operation and maintenance person for processing, submitting the operation and maintenance responsible person for checking after the system or equipment operation and maintenance person finishes processing, returning to a work order processing link if the operation and maintenance responsible person checking is not passed, and finishing the work order if the operation and maintenance responsible person checking is passed;

The alarm and maintenance linkage is carried out, and the information system, the equipment and the maintenance plan are associated; the information scheduling (shown in fig. 14) maintains a maintenance plan in a company-level monitoring platform, the platform marks system alarm information in maintenance, and the reminding character is 'detection', and is not used as alarm treatment;

alarm check for checking the consistency of alarm signal logic of different sources; when the alarm information logics of different sources are consistent, carrying out alarm merging; when the alarm information logics of different sources are inconsistent, checking whether the monitored objects and the topology structures of the two parties are consistent.

Referring to fig. 15, a company-level monitoring system is disclosed, wherein the defect management is implemented by constructing a defect library of a company information system to form a unified defect management flow, and performing closed loop circulation in the form of a defect work order; providing a unified defect management interface (as shown in fig. 15) to facilitate multi-view, multi-scene review; the information sources of the defect worksheet comprise fault and abnormal alarm information and manual creation, and when the alarm information is taken as a defect worksheet data source, the alarm information content is automatically filled in; the defect work order supports the self-defined dispatch flow according to the roles of the users, and automatically identifies work order dispatch objects according to the responsible persons of the system or the resources.

Referring to fig. 16, in the system for monitoring a company level, the topology display synchronizes system and resource information from the system for monitoring a company level ledger, automatically generates a system topology map according to the association relationship between the monitored resources and the system, and comprehensively displays the operation mode of the system; the alarm information can be intuitively displayed in the topological graph, so that a dispatcher can conveniently and timely position the alarm and judge the influence range of the alarm.

Referring to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8 and fig. 9, a company-level monitoring system includes alarm statistical analysis, statistics of alarm number, level and alarm duration in a specified time range of a service system, sorting according to dimensions such as alarm number and the like, and displaying operation quality and treatment efficiency of the system through the above data; and (3) carrying out statistical analysis on the system and the equipment, and calculating the conditions of running the application system and the equipment within a specified time range.

Referring to fig. 1, 2, 3, 4, 5, 6, 7, 8 and 9, a company-level monitoring system, the alert inspection tool and the internet of things management platform: integrating with the alarm inspection tool and the Internet of things management platform, and receiving the alarm information of a company information system, a physical server, network equipment, security equipment, storage, backup, an operating system, a database, middleware and a machine room; and the data center station full-link monitoring tool receives the data center station alarm information. And the company-level ledger system synchronizes basic information of the information system, ledger information of the software and hardware resources and association relation between the information system and the software and hardware resources. And unified authority is realized, standardized configuration of the authority is realized, and unified management of account numbers of login users is facilitated.

Example 3

Further optimization of the company-level monitoring system provided in example 1 or 2

The monitoring indexes comprise:

1. information system index

TABLE-1 information System index

2. Physical server index

TABLE-2 physical Server index

3. Network index

TABLE-3 network metrics

4. Safety index

TABLE-4 safety index

5. Storing metrics

TABLE-5 storing the index

6. Backup index

TABLE-6 backup indicator

7. Operating system

TABLE-7 operating System index

8. Database index

TABLE-8 database index

9. Middleware index

TABLE-9 middleware index

10. Data center table index

TABLE-10 data center table index

11. Machine room index

Meter-11 machine room index

Example 3

Specifically, please refer to fig. 17 and 18, the company-level monitoring device, which comprises a housing 1, the inside of casing 1 is equipped with mainboard 2, the show layer, the application layer and data layer all store in mainboard 2, the below of mainboard 2 is equipped with battery 3, the inside top of casing 1 is equipped with splice interface 7, the inside bottom of casing 1 is equipped with splice plug 8, splice interface 7 on a company-level monitoring device is connected with splice plug 8 in another company-level monitoring device and carries out data transmission, realize that the front end of casing 1 is equipped with switching mechanism, switching mechanism's front end is equipped with a plurality of transmission plug 5, switching mechanism is used for switching different transmission plug 5 and uses, transmission plug 5 includes multiple transmission protocol interfaces such as Type-C interface, USB interface, the rear end of casing 1 is equipped with transmission interface 6, after receiving data transmission interface 6 carries out data transmission to mainboard 2, transmission plug 5 on a company-level monitoring device is connected with transmission interface 6 in another company-level monitoring device.

Example 4

For further optimization of the company-level monitoring device provided in embodiment 3, specifically, as shown in fig. 19, the switching mechanism includes a switching component 4, a moving component 9 is disposed on a side, close to the motherboard 2, of the switching component 4, a transmission component 10 is disposed on a side of the moving component 9, a driving cover 11 is disposed on a side of the transmission component 10, the driving cover 11 extends to the outside of the housing 1, when the driving cover 11 is opened, a part of the driving component 10 is driven to extend to the outside of the housing 1, and meanwhile, the driving component 10 drives the moving component 9 to enable the transmission plug 5 to extend into the switching component 4, and then the manual driving of the driving component 10 drives the switching component 4 to rotate so as to switch the transmission plug 5.

Further, as shown in fig. 18, the splice interface 7 includes a first mounting plate 71 located at the top inside the casing 1, a first jack 72 is fixedly arranged at the top of the first mounting plate 71, a second jack 73 located at the front side of the first jack 72, the tops of the first jack 72 and the second jack 73 penetrate through the casing 1, the splice plug 8 includes a second mounting plate 81 arranged at the bottom inside the casing 1, a first inserting sheet 82 and a second inserting sheet 83 are fixedly arranged at the bottom end of the second mounting plate 81, the first inserting sheet 82 is located at the rear side of the second inserting sheet 83, the second inserting sheet 83 is inserted into the second jack 73, the first inserting sheet 82 is inserted into the first jack 72, at least two conductive contacts are arranged in conductive contacts on the first inserting sheet 82 and used for supplying power, when the first jack 72 receives data, the second jack 73 transmits the data to the main board 2, when the second jack 73 receives data, the first inserting sheet 82 transmits the data to the main board 2, and when the second inserting sheet 82 receives the data, the second inserting sheet 83 transmits the data to the switching component 4.

Further, as shown in fig. 20 and 21, the switching component 4 includes a rotating seat 41, a toothed ring 44 is disposed on a circumferential side of a rear end of the rotating seat 41, a transmission ring 48 is fixedly disposed in a middle portion of the switching component 4, a plurality of mounting cavities 42 located on the circumferential side of the transmission ring 48 are formed in the rotating seat 41, a clamping sleeve 413 is inserted into a side, far away from the transmission ring 48, of the front end of the mounting cavity 42, an elastic component is disposed in the mounting cavity 42, a plurality of first conductive rings are embedded in the transmission ring 48, inner diameters of the plurality of first conductive rings are gradually reduced from rear to front, elastic conductive plates are disposed in the first conductive rings, a coaxial plug 411 is further disposed in the transmission ring 48, a plurality of second conductive rings are embedded in the circumferential side of the coaxial plug 411, outer diameters of the plurality of second conductive rings are gradually reduced from rear to front, the plurality of second conductive rings are in one-to-one correspondence with the first conductive rings and are in contact with the elastic conductive plates on the second conductive rings, and the coaxial plug 411 is enabled to rotate in the transmission ring 48 without disconnection.

Further, as shown in fig. 20 and 21, the elastic component includes a plurality of first sliding grooves 43 formed on the rear side of the installation cavity 42 and a plurality of second sliding grooves 412 formed on the front side of the installation cavity 42, the second sliding grooves 412 and the first sliding grooves 43 are in one-to-one correspondence, springs 46 are arranged between the corresponding second sliding grooves 412 and the first sliding grooves 43, rotating wheels 47 are arranged at the ends of the springs 46, two ends of the rotating wheels 47 are respectively connected with the second sliding grooves 412 and the first sliding grooves 43 in a sliding manner, the adjacent rotating wheels 47 are respectively located on different sides of the installation cavity 42, a transmission line 49 is fixedly arranged at the rear end of the transmission plug 5, when the transmission line 49 passes through a clamping sleeve 413 and then sequentially bypasses a plurality of rotating wheels 47 and a transmission ring 48 to fixedly connect with the clamping sleeve 1, the transmission plug 5 is pulled to the outer side of the shell 1, the transmission line 49 is pulled to enable the rotating wheels 47 to move towards the middle of the installation cavity 42, when the transmission plug 5 is released, the springs 46 enable the rotating wheels 47 to move towards two sides to fold and pull the transmission line 49 back, the transmission plug 5 is retracted inside the clamping sleeve 413, one side of the rotating seat 41 is provided with a hole 410, the rotating seat 41 is respectively, the rotating disc 413 is located on one side of the sliding disc 413 and is provided with a fixed piece inside the sliding disc 45, and is located on the outer side of the inner side of the sliding disc 45, and is located on the inner side of the sliding disc 45, and is driven to move back 45, and a sliding disc 45 is driven to move back plug 45 to the sliding disc 45.

Further, as shown in fig. 22, the moving assembly 9 includes a swivel 99 rotatably connected to the middle part of the rear end of the rotating seat 41, an extension rod 98 is fixedly arranged at the top end of the swivel 99, a rack 97 is fixedly arranged at the top of the extension rod 98, a transmission gear 93 is meshed above the rack 97, a screw rod 91 is arranged at the front end of the transmission gear 93, mounting plates 92 are rotatably arranged at both ends of the screw rod 91, the rear end of the screw rod 91 passes through the mounting plates 92 at the rear end through a transmission shaft and is fixedly connected with the transmission gear 93, the top of the two mounting plates 92 is fixedly connected with the inner wall of the shell 1, an active pulling plate 94 is in threaded connection with the screw rod 91, a T-shaped slide rail 96 is arranged above the screw rod 91, both ends of the T-shaped slide rail 96 are fixedly connected with the two mounting plates 92 respectively, the top of the active pulling plate 94 and the T-shaped slide rail 95 are slidably connected with the T-shaped slide rail 96, when the extension rod 98 rotates, the rack 97 drives the transmission gear 93 to rotate, the transmission gear 93 drives the screw rod 91 to move, the screw rod 91 drives the active pulling plate 94, the bottom of the active pulling plate 94 is provided with a clamping groove 45, and the active pulling plate 94 is driven by the driving plate 45 to move from the inside the switching assembly to the inside of the switching assembly 4, and the active pulling plate 45 is controlled to move from the inside the switching assembly to the switching assembly.

Further, as shown in fig. 23, the transmission assembly 10 includes a sliding sleeve 101 sleeved on the extension rod 98, an L-shaped rod 102 is fixedly arranged on one side of the sliding sleeve 101, a first connecting rod 103 is fixedly arranged on one side of the end portion of the L-shaped rod 102, an inner gear 104 is fixedly arranged on the end portion of the first connecting rod 103, a second connecting rod 106 is fixedly arranged on the end portion of the inner gear 104, an outer gear 105 is meshed with the outer gear 104, the outer gear 105 is rotatably connected with the rotating seat 41 through a bracket, the outer portion of the outer gear 105 is meshed with the toothed ring 44, a knob 107 is fixedly arranged on the end portion of the second connecting rod 106, the second connecting rod 106 is driven to move when the knob 107 moves, so that the extension rod 98 is driven to move through the inner gear 104, the first connecting rod 103, the L-shaped rod 102 and the sliding sleeve 101, the inner gear 104 slides in the outer gear 105, and when the knob 107 rotates, the knob 107 drives the inner gear 104 to rotate, so that the outer gear 105 rotates, and the rotating seat 41 rotates.

Further, as shown in fig. 23, an opening is formed on the side of the housing 1, the driving cover 11 includes a protection plate 111 rotatably disposed in the opening, an opening groove 112 is formed on a side, away from the connection with the housing 1, of the protection plate 111, two driving plates 113 disposed in the housing 1 are fixedly disposed on a side, close to the connection, of the protection plate 111, two driving plates 113 extend to a side, close to the moving assembly 9, of the knob 107, a second connecting rod 106 is disposed between the two driving plates 113, the protection plate 111 is rotated from the opening groove 112 to open the protection plate 111, the protection plate 111 drives the driving plates 113 to rotate, the knob 107 is pressed by the inner side of the cambered surface of the driving plates 113 to move the knob 107 in a direction away from the moving assembly 9, so that the movement of the extension rod 98 is realized, and when the protection plate 111 is closed, the knob 107 is pushed in a direction of the moving assembly 9 by the protection plate 111 to reversely move the extension rod 98.

The company-level monitoring system and the application provided by the invention have the following using processes:

different drivers and programs are written in the storage modules on the main board 2 of the plurality of company-level monitoring devices, and when in use, the modules are spliced and assembled according to different required functions, so that modularization is realized, and further the required functions are realized, and when in splicing; when in use, a plurality of company-level monitoring devices are spliced, a second plug 83 and a first plug 82 on one company-level monitoring device are respectively inserted into a second jack 73 and a first jack 72 of the other company-level monitoring device, when the first jack 72 receives data, the data is transmitted to the main board 2, when the second jack 73 receives data, the data is transmitted to the switching component 4, when the first plug 82 receives data, the data is transmitted to the main board 2, when the second plug 83 receives data, the data is transmitted to the switching component 4, a transmission plug 5 on one company-level monitoring device is connected with a transmission interface 6 in the other company-level monitoring device for data transmission, the transmission plug 5 on one company-level monitoring device is connected with a terminal, a processor on the main board 2 in the company-level monitoring device connected to the terminal sends instructions to the other company-level monitoring device, when other company-level monitoring devices are separated from the company-level monitoring devices connected to the terminal, data are transmitted between the adjacent company-level monitoring devices connected through the splicing interface 7 and the splicing plug 8, the data of the second jack 73 and the second plug 83 are directly transmitted through the rotating seat 41 instead of the main board 2, the data transmission speed is improved, the running pressure of a processor is reduced, after the data are transmitted to the terminal, a corresponding driver is installed in the terminal, then the data received by the terminal are monitored, when the terminal is powered off, the storage battery 3 temporarily supplies power to the company-level monitoring devices, the data are prevented from being lost, and the battery power in all the connected company-level monitoring devices is shared under no special condition, therefore, the type of the transmission plug 5 needs to be switched according to different terminals, when the type is switched, the protection plate 111 is rotated from the opening groove 112 to open the protection plate 111, the protection plate 111 drives the driving piece 113 to rotate, the knob 107 is extruded by the inner side of the cambered surface of the driving piece 113 to enable the knob 107 to move away from the moving assembly 9, the second connecting rod 106 is driven to move when the knob 107 moves, thereby the extension rod 98 is driven to move through the sliding sleeve 101, the extension rod 98 drives the transmission gear 93 to rotate, and then the screw 91 rotates to drive the driving pulling piece 94 to move towards the main board 2, thereby the transmission plug 5 is driven to retract into the switching assembly 4 through the driving clamping sleeve 413, then the knob 107 is rotated, the knob 107 drives the outer gear 104 to rotate, the inner gear 105 is driven to rotate, when the required transmission plug 5 corresponds to the penetrating opening of the front end of the shell 1, the protection plate 111 is closed, the knob 107 is extruded by the protection plate 111 to push the knob 107 to move towards the direction of the moving assembly 9, the extension rod 98 is reversely moved, thereby the transmission gear 93 is driven, the driving pulling the driven pulling piece 94 to move away from the driven pulling piece 45 towards the direction away from 2, and the direction of the main board 5 is driven to move, and the transmission plug 5 is driven to extend to the front side of the main board through the penetrating the opening 1, and the front side of the shell 5 is switched.

In the present invention, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; may be mechanically connected, may be electrically connected or may be in communication with each other; either directly or indirectly, through intermediaries, or both, may be in communication with each other or in interaction with each other, unless expressly defined otherwise. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances. It is apparent that the above-described embodiments are only some embodiments of the present invention, but not all embodiments, and the preferred embodiments of the present invention are shown in the drawings, which do not limit the scope of the patent claims. This invention may be embodied in many different forms, but rather, embodiments are provided in order to provide a thorough and complete understanding of the present disclosure. Although the invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing description, or equivalents may be substituted for elements thereof. All equivalent structures made by the content of the specification and the drawings of the invention are directly or indirectly applied to other related technical fields, and are also within the scope of the invention.

Claims (10)

1. A corporate level monitoring system is characterized by comprising a display layer, an application layer, a data layer, an acquisition layer, a short message platform, a unified authority and a data center station full link,

the display layer comprises a scheduling view and an operation and maintenance view;

the application layer comprises standing book management, monitoring management, alarm management, defect management, topology display and statistical analysis;

the data layer comprises an information system ledger, a basic resource ledger and alarm information;

the acquisition layer comprises a company-level standing book system, an internet of things management platform and an alarm inspection tool;

the alarm inspection tool, the Internet of things management platform, the short message platform, the unified authority, the data center station full link and the company-level account system are in an integrated relationship.

2. The system according to claim 1, wherein the ledger management acquires information of ledgers of monitoring objects (information systems, network devices, host devices, databases, middleware, etc.) from the company-level ledger system as authoritative data sources of the monitoring objects; the company-level ledger system pushes system online and offline information and equipment return and delivery information in real time to be used as a data source for monitoring configuration changes.

3. The system according to claim 2, wherein the monitoring management is performed to perform configuration work for monitoring the on-line and off-line systems and resources of the company, and includes monitoring configuration for on-line and off-line systems, monitoring configuration for equipment delivery and on-line systems, and monitoring configuration for newly-added resources of the on-line systems; the monitoring management comprises the steps of newly-built system online, information system offline, newly-increased resources in a transportation system and equipment withdrawal.

4. A corporate level monitoring system according to claim 3, wherein the alarm management comprises

The alarm collection is integrated with an alarm inspection tool, an internet of things management platform and a data center station all-link tool, so that the collection of alarms of various monitoring objects is realized;

the alarm distribution is carried out, namely the alarm distribution is carried out to a dispatching view and an operation and maintenance view for classified display according to different alarm grades, wherein fault and abnormal alarms are distributed to the dispatching view, and the alarms are informed to be distributed to the operation and maintenance view;

alarm disposal, wherein three types of alarms are circulated in a company-level monitoring platform in the form of a work order;

the alarm and maintenance linkage is carried out, and the information system, the equipment and the maintenance plan are associated;

and the alarm check is used for checking the consistency of alarm signal logics of different sources.

5. The system of claim 4, wherein the defect management is performed by creating a defect library of the company information system to form a unified defect management flow, and performing closed loop circulation in the form of a defect work order.

6. The system according to claim 5, wherein the topology display synchronizes system and resource information from the system of the company-level ledger, automatically generates a system topology map according to the association relationship between the monitored resources and the system, and comprehensively displays the operation mode of the system.

7. The system of claim 6, wherein the statistical analysis includes alarm statistical analysis, and the statistical business system specifies the number, level and duration of alarms in the time range, and orders the alarms according to the number of alarms and other dimensions, and the running quality and the disposal efficiency of the system are displayed by the above data;

and (3) carrying out statistical analysis on the system and the equipment, and calculating the conditions of running the application system and the equipment within a specified time range.

8. The company-level monitoring system of claim 7, wherein the alert inspection tool and the internet of things management platform: integrating with the alarm inspection tool and the Internet of things management platform, and receiving the alarm information of a company information system, a physical server, network equipment, security equipment, storage, backup, an operating system, a database, middleware and a machine room;

the data center all-link monitoring tool receives data center alarm information;

the system comprises a company-level ledger system, a synchronous information system basic information, a software and hardware resource ledger information and an association relation between the information system and software and hardware resources;

and unified authority is realized, standardized configuration of the authority is realized, and unified management of account numbers of login users is facilitated.

9. Company-level monitoring equipment, which is characterized by comprising a shell (1), wherein a main board (2) is arranged in the shell (1), a display layer, an application layer and a data layer are all stored in the main board (2), a storage battery (3) is arranged below the main board (2), a splicing interface (7) is arranged at the top end in the shell (1), a splicing plug (8) is arranged at the bottom end in the shell (1), a switching mechanism is arranged at the front end of the shell (1), a plurality of transmission plugs (5) are arranged at the front end of the switching mechanism, and a transmission interface (6) is arranged at the rear end of the shell (1).

10. A corporate level monitoring device according to claim 9, characterized in that the switching mechanism comprises a switching assembly (4), a moving assembly (9) is arranged on the side of the switching assembly (4) close to the main board (2), a transmission assembly (10) is arranged on the side of the moving assembly (9), a driving cover (11) is arranged on the side of the transmission assembly (10), and the driving cover (11) extends to the outside of the housing (1).