CN116125865A - Intelligent integrated system of wisdom campus - Google Patents

Abstract

The invention discloses an intelligent campus integrated system, which comprises a central processing module, and a basic management module, an alarm management module, a subsystem report management module, an operation and maintenance management module, a patrol management module, a maintenance management module and all subsystems matched with the integrated system, wherein the basic management module, the alarm management module, the subsystem report management module, the operation and maintenance management module and the maintenance management module are respectively in communication connection with the central processing module, and the central processing module acquires the relevant states of all the subsystems matched with the integrated system and transmits the relevant states to the alarm management module, the subsystem report management module, the operation and maintenance management module and the maintenance management module, and sends control instructions generated by the operation and maintenance management module and the alarm management module to the subsystems corresponding to the control instructions. According to the intelligent campus integrated system, all the subsystems in the campus are organically integrated, unified management of the subsystems can be achieved, the overall efficiency can be greatly improved, and all the subsystems do not need to be provided with a control unit independently, so that the cost and the energy consumption can be reduced.

Description

Intelligent integrated system of wisdom campus

Technical Field

The invention relates to the technical field of campus intelligent management, in particular to an intelligent campus intelligent integrated system.

Background

In recent years, the construction of smart campuses has become a necessary development trend of universities, and the operation of smart campuses often needs to cooperate with an intelligent integrated system. At present, the domestic intelligent integrated system basically adopts an SOA distributed architecture, the architecture flow adopts a page configuration tool running locally, dynamic pages are designed, then the dynamic pages are released to a WEB server, information services are provided for the outside, and a platform for running software is mostly a Microsoft server platform. The software and hardware devices of the integrated intelligent subsystems adopt a mode of locally deploying independent systems, are respectively provided with independent servers and control hosts to realize respective functions, interconnection and intercommunication among a plurality of building intelligent systems are inconvenient, complete sharing of information and data are difficult to realize, the system integration level is low, the information island phenomenon is serious, the management difficulty is high due to the low integration level, the later maintenance cost is high, the equipment is updated to frequently cause system faults, and the average service life of the effective operation of the integrated system is short. Meanwhile, the equipment maintenance flow is imperfect or even missing, equipment assets are not managed in a full life cycle, workers randomly process the equipment assets, the efficiency is low, and a feedback mechanism after processing is omitted.

The prior art such as a cross-platform-based intelligent campus system disclosed by CN113723770A and a intelligent campus management system disclosed by CN112132525A mainly provides a digital management system for schools, has a limited radiation range, does not integrate disaster warning and other functions, and therefore, has low system integration level.

Therefore, the intelligent campus integrated system with comprehensive functions, high integration level and high overall efficiency is developed.

Disclosure of Invention

Due to the defects in the prior art, the intelligent integrated system for the intelligent campus provided by the invention has the advantages of comprehensive functions, high integration level and high overall efficiency, so that the problems of low integration level, single function and low operation efficiency of the existing intelligent campus intelligent integrated system are solved.

In order to achieve the above object, the present invention provides the following technical solutions:

an intelligent integrated system for intelligent campus comprises a central processing module, a basic management module, an alarm management module, a subsystem report management module, an operation and maintenance management module, a patrol management module, a maintenance management module and all subsystems matched with the integrated system, wherein the basic management module, the alarm management module, the subsystem report management module, the operation and maintenance management module, the patrol management module, the maintenance management module and all subsystems are respectively in communication connection with the central processing module;

the basic management module is used for adjusting system setting parameters and managing user information;

the alarm management module is used for managing all subsystem alarm related information matched with the integrated system;

the subsystem report management module is used for recording and managing the operation data information of all subsystems matched with the integrated system;

the operation and maintenance management module is used for adjusting parameters of all subsystems matched with the integrated system and managing operation worksheets of the integrated system;

the patrol management module is used for managing patrol information;

the maintenance management module is used for managing maintenance information of all devices related to the integrated system;

the central processing module is used for acquiring the relevant states of all subsystems matched with the integrated system, transmitting the relevant states to the alarm management module, the subsystem report management module, the operation and maintenance management module and the maintenance management module, and transmitting control instructions generated by the operation and maintenance management module and the alarm management module to the subsystem corresponding to the control instructions.

The intelligent campus intelligent integrated system can organically integrate all subsystems in the campus, can realize unified management of the subsystems, can greatly improve the overall efficiency, does not need to be provided with a control unit independently, can reduce the cost and the energy consumption, can effectively solve the problems of information island, power loss, high operation cost and the like of the current campus intelligent integrated system, and has a great application prospect.

The intelligent campus intelligent integrated system integrates the functions of a safety technology prevention system, equipment operation and maintenance, energy consumption analysis and emergency command, adopts an efficient communication interface technology, seamlessly merges functional modules of all systems, standardizes, normalizes and unifies operation interfaces of the intelligent campus intelligent integrated system, deeply merges service modules among all systems, and finally achieves the purposes of interconnection, high-efficiency operation and management of all systems. Meanwhile, by means of centralized supervision of system equipment operation information, various platform services such as integrated monitoring, mobile alarm, facility operation and maintenance management, energy consumption analysis, multimedia information release and the like are provided, an intelligent integrated management platform is realized, and the purposes of global management and intelligent operation are achieved.

As a preferable technical scheme:

the intelligent campus integrated system comprises all subsystems matched with the integrated system, wherein the subsystems comprise an automatic fire alarm system, a safety technology protection system, a dormitory management alarm subsystem, a kitchen range-lighting subsystem, an electronic examination room matched subsystem and an emergency response subsystem. Only one feasible technical scheme is provided, and the intelligent control system can integrate 20 weak current intelligent subsystems such as automatic fire alarm, video monitoring, intrusion alarm, access control management, electronic patrol, elevator system, parking management, heating ventilation and air conditioning, water supply and drainage, power transformation and distribution monitoring, intelligent public lighting and landscape lighting, energy efficiency supervision, information guidance and release, public broadcasting, dormitory management alarm, kitchen lighting range, electronic examination room matching, intelligent irrigation, intelligent water leakage monitoring, emergency response and the like as required, integrate all the weak current intelligent subsystems needing to be monitored on one operation platform (namely a control center) and realize centralized management, thereby realizing the aims of 'reducing labor cost', 'ensuring operation quality' and 'reducing operation energy consumption'.

The intelligent campus integrated system comprises the basic management module, the user authentication unit, the user management unit, the system configuration unit and the log management unit.

User authentication unit: the independent user authentication management adopts unified single sign-on which is convenient for user management and memorization, provides a function application of unified identity authentication for users, does not need to input a user name and a password when switching to other systems, and achieves high-quality service of 'one-time sign-on and multiple-time access'.

User management unit: the system provides by default two user groups: administrative users and general users. The administrator advocacy can set access rights, access areas, access systems, editing rights, control rights and the like of operators for each subsystem; all the user's operation records will be automatically archived and cannot be deleted and modified.

System configuration unit: an initial configuration is provided that includes a project name, a location, a project picture, and a project profile. An editable function is provided, which can be modified by the user.

Log management unit: the user operation log can record the user operation platform data, and the exportable format is EXCEL; the system operation log can record interface communication and control instruction data of the subsystem equipment, and the exportable format is EXCEL.

The intelligent campus integrated system comprises the alarm management module, the real-time alarm unit, the history alarm unit, the alarm classification and confirmation unit and the alarm linkage unit.

The alarm management module mainly comprises two functions of real-time alarm and history alarm, when the alarm occurs, operators on duty perform corresponding operation according to system prompts, and when the alarm information is excessive, batch operation can be performed. And after the corresponding operation is finished, the alarm information after the neutralization treatment is converted into a historical alarm record.

Real-time alarm unit: the pie chart shows the percentage of the total alarm times occupied by different alarm levels on the same day; the line graph shows trend of different alarm levels in the same day; the form displays real-time alarm information, and in this area, a user can "confirm", "process" and open the video of the alarm area for a specific piece of alarm information.

History alarm unit: the pie chart displays the percentage of the total alarm times occupied by different alarm levels in units of days, months and years; the line graph displays trend of different alarm levels on the same day by taking the day, month and year as units; the table queries historical alert information according to time periods, levels, subsystems, states, and whether homologous alert conditions are merged.

Alarm classification and confirmation unit:

alarm classification: the system adopts a real-time alarm centralized management mode, can intensively display and process various alarms in each subsystem, and supports alarm level priority arrangement. The alarm level supports extension customization, and is divided into three levels by default: emergency, important and general alarms, in turn indicated by yellow, orange and red.

Alarm confirmation: when the system alarms, management personnel are prompted in various modes such as short messages, sound alarms, alarm lamps and the like according to alarm levels and categories, and alarm specific information is displayed. Until the alarm fault is processed, the manager manually releases the system alarm, confirms that the fault processing is finished, and the system can stop the alarm state and restore to be normal. When the alarm information is too much, all the confirmation can be clicked to carry out batch operation.

Alarm management:

all alarm and fault information generated by the system, a user can inquire historical alarm information according to time periods, levels, subsystems and states and whether homologous alarm conditions are combined or not, and statistics and trend analysis graphs of the historical alarm information are displayed according to time (day, month) and different levels of alarm modes.

When the network is abnormal in communication, the communication abnormality alarm is triggered, and when the communication is recovered to be normal, the alarm can be automatically released. The alarm system records the alarm starting time and the alarm eliminating time, and the recovered data can be automatically or manually repaired within a reasonable range to complete the data repairing work so as to ensure the integrity and the authenticity of the energy consumption data.

Alarm linkage unit: when the real-time alarm occurs, the video is clicked manually, a video window associated with the alarm point is popped up, and alarm condition confirmation is carried out. Under the condition of one machine with multiple screens, when the real-time alarm occurs, the electronic map is clicked manually, and the user can jump to the electronic map interface where the alarm point is located, so that the position where the alarm is located can be checked in a more visual mode.

The intelligent campus integrated system comprises the subsystem report management module, wherein the subsystem report management module comprises a real-time state display unit and a history state display unit.

Subsystem report management module

The system can record the historical operation data of each intelligent subsystem and provide means for users to browse, inquire and analyze. Displaying a real-time graph (running data real-time change curve) and a historical trend graph (running data historical curve) of the information according to the needs of a user; displaying a histogram and a pie chart of the energy consumption data; user-defined and graphical display of any information in the database is supported. The software customizes the output report in a graphic manner, and the format of the report includes, but is not limited to, excel, PDF, hypertext, and the like.

Real-time state display unit: the real-time chart is continuously refreshed, dynamically changed, and the history chart is static, and the value of the history chart is specified by a user. The historical trend graph provides basis for system setting, operation monitoring, preventive maintenance, system maintenance decision-making and the like.

History state display unit: the user can display any parameter stored in the server in a trend chart mode according to actual needs. Namely: the trend graph supports user-defined queries and presentations.

Device operation history report: the user can query the device via the start date, expiration date, and subsystem, export the support in tabular form, and hold the export print. The system simultaneously supports the trend of each subsystem in different time periods of the custom query in a broken line form.

Device operation history trend graph: the equipment operation history trend graph displays operation data of each subsystem in different time periods by taking 'day, month and year' as units, and displays the operation data in a broken line form.

The intelligent campus integrated system comprises the operation and maintenance management module, wherein the operation and maintenance management module comprises an equipment management unit and a work order management unit.

Device management unit: the device management is an important component in operation and maintenance management, and is divided into device template configuration and device information management.

Device template configuration: the equipment template is a complete standard attribute template, and related equipment can be quickly added based on the template, so that the equipment has abstract model concepts and is convenient for subsequent application operation. And supporting user-defined configuration.

Device information management: creation, modification, and deletion of devices may be accomplished based on the device templates.

And a work order management unit:

to-do worksheets

The work order to be handled is mainly an operation and maintenance user and can be understood as a customer service specialist, and the management module can realize the operation of the whole life cycle of the work order such as newspaper, dispatching, receiving, checking, accepting, evaluating, closing and the like.

Worksheet list

The work order list is that operation and maintenance manager can check the processing details of all work orders through the functional module, and the whole life cycle of the work orders is tracked, so that the problem can be conveniently managed and found. The manager can see the status of the work orders in time, including the created, processed, pending and completed work orders, and perform the next operation.

Mobile phone APP

The manager can carry out the whole-flow management of creating, approving, accepting, closing, verifying, evaluating the work orders and the like through the mobile phone APP; the mobile management of maintenance and inspection business can be performed; the functions of scanning codes and photographing are also supported. The work efficiency of staff is effectively improved, and the error rate of work orders is reduced.

The intelligent campus integrated system comprises the patrol management module, wherein the patrol management module comprises a patrol plan management unit and a patrol record management unit.

Patrol management module

The main functions of inspection management are to make a periodic inspection plan and to inspect the machine room and equipment by scanning the two-dimensional code of the machine room through the mobile phone APP. If the equipment is found to be abnormal in the inspection process, the equipment can be directly processed; such as failure notice that cannot be handled in the field.

In addition, the client may directly create the inspection plan. And the inspection responsible person designated by the inspection plan performs inspection at the APP end, and can perform equipment report operation in the process of performing the inspection plan.

A patrol plan management unit: and (3) making a periodic inspection plan, wherein the periodic inspection plan comprises machine room inspection, equipment inspection and custom inspection, and the inspection plan needs to be assigned to a responsible person.

A patrol record management unit: the inspection record management is mainly the inquiry of the execution state of the inspection record. The inspection record can be inquired and inquired according to the name, type and responsible person of the work order and the work order state as conditions.

The intelligent campus integrated system comprises the maintenance management module, the maintenance plan management unit and the maintenance record query unit.

Maintenance management module

The maintenance system has the main functions of carrying out equipment maintenance work according to equipment maintenance plans made by days, weeks, months and years and pushing the equipment maintenance plans to a maintainer APP according to the appointed time in the form of a work order.

Maintenance plan management unit

Enabling a maintenance plan: and after the maintenance plan is started to take effect, the maintenance record can be generated. Clicking on the "Enable" font in the maintenance plan management page list, and enabling the maintenance plan.

Modifying the maintenance plan: clicking on the "modify" font in the maintenance plan management page list may modify the content of the maintenance plan.

Deleting the maintenance plan: clicking on the "delete" font in the maintenance plan management page list may delete the maintenance plan.

And the maintenance record inquiring unit is used for: and inputting a query condition, clicking the query above the maintenance record management page list, and querying the maintenance record.

The intelligent campus intelligent integrated system is operated on a cloud server;

the intelligent campus integrated system can be operated by accessing the cloud server through the control center.

The above technical solution is only one possible technical solution of the present invention, the protection scope of the present invention is not limited thereto, and a person skilled in the art can reasonably adjust the specific design according to the actual requirements.

Said invention has the following advantages or beneficial effects:

the intelligent campus intelligent integrated system can realize the functions of comprehensive operation monitoring, alarm/fault management, equipment maintenance/maintenance management and the like of electromechanical equipment in the campus, and has the advantages that:

1. unified management

1.1 System integration: the platform adopts an efficient universal interface technology, and is seamlessly compatible with different subsystems through a specific system exchange layer and a standard communication protocol.

1.2 sharing of information: and the distributed and mutually independent intelligent subsystems are intensively displayed by using the same environment and a unified software interface. The software presents various information desired by the manager in a vivid graphical manner and a convenient human-computer interface.

2. Efficiency is improved

2.1 self-run mode (one-touch operation): according to the overall condition of the property operation, more than two subsystems work cooperatively to jointly ensure that electromechanical equipment in the whole or partial area of the building automatically operates according to a preset mode under the condition of no human intervention. The operation mode can be used for orderly switching operation by taking the time axis as an execution reference point of the operation event sequence, so that the configuration of human interference and personnel number is effectively reduced.

2.2 unified storage: and collecting and translating data of all subsystems through an open working platform, establishing a service program of a corresponding system, receiving service requests of all authorized users on a network, and realizing data sharing.

2.3 cost reduction and synergy: the integrated system replaces a hardware dry contact linkage mode with a software function, so that the cost is saved, and the integrated information quantity and system functions are increased. The manager can operate and manage each intelligent subsystem on one or more computers by the same interface, so that the management is convenient, the number of the manager can be reduced, and the management efficiency is improved.

3. Humanized operation

3.1 is simple and easy to use: the system monitors, controls and manages integrated subsystems in a centralized manner in one room and one platform by establishing an integrated platform in a central control room. The complexity of the work can be greatly simplified through a simple and easy-to-use control mode, and the requirements of management personnel are reduced.

3.2 image is easy to understand: the system displays the information of each subsystem, each device and each floor in the form of an electronic map and a device list, and the user operation interface is simple and friendly. The method provides a rich and maintainable basic pattern library for users, and the users can finish the electronic map making on the development platform by adopting a drag-and-drop method. After setting the corresponding association between the graphics and the corresponding devices, the user can conveniently monitor each device in the building on the defense distribution diagram.

4. Enhancing asset value

4.1 improving the quality of the equipment: full life cycle management is realized for the equipment, and basic information is purchased from the equipment and input; submitting, approving, dispatching, tracking and satisfaction feedback to the worksheet; then making a purchase plan of the new equipment, realizing full closed-loop management, and enabling a manager to comprehensively know each piece of equipment; and replacing and eliminating equipment or brands and suppliers with high failure rate and instability.

4.2 prolonging the service life of the equipment: strictly executing equipment maintenance, inspection and maintenance plans, prolonging the service life of the asset, reducing the potential safety hazard of the equipment, preventing accidents and improving the asset value.

5. Reducing energy consumption

5.1 fine management: the manager can grasp the flow direction of the energy source in real time and change the extensive management of the energy source. The system can provide services such as remote monitoring, energy audit, energy consumption statistics and the like, and lays a foundation for deep mining of the energy-saving potential of schools.

5.2 accurate analysis: the metering device is used for on-line monitoring, and collecting energy consumption information such as power load, electric quantity, voltage, electric energy quality, fuel gas quantity, fuel oil quantity, water supply quantity and the like in real time, so that basic data can be timely, completely and accurately provided for a superior information system, and a technical foundation is provided for implementing business strategies such as energy conservation, emission reduction, energy consumption cost reduction and the like. Thereby providing support for analysis and decision making of each management link of the school.

6. Auxiliary security management

The system provides platform support and comprehensive information support for an automatic fire alarm system, a safety technology prevention system, a dormitory management alarm subsystem, a kitchen range subsystem, an electronic examination room matched subsystem, an emergency response subsystem and the like, so that the systems are fused and operated efficiently, and the technical quality of school safety management is comprehensively improved.

7. Realize emergency command

When encountering various sudden public safety events, the emergency response subsystem can be started at any time, and an intelligent integrated system (IBMS) control center can be converted into an emergency response command center, so that quick and comprehensive information support is provided for command decision, the damage of the sudden public safety events is effectively prevented, controlled and eliminated, visual coordinated command, ordered scheduling and effective supervision are realized, and the emergency efficiency is improved.

Drawings

The invention and its features, aspects and advantages will become more apparent from the detailed description of non-limiting embodiments with reference to the following drawings. Like numbers refer to like parts throughout. The drawings may not be to scale, emphasis instead being placed upon illustrating the principles of the invention.

FIG. 1 is a schematic diagram of an intelligent campus integrated system of the present invention;

FIG. 2 is a schematic diagram of a basic management module;

FIG. 3 is a schematic diagram of an alarm management module;

FIG. 4 is a schematic diagram of a subsystem report management module;

FIG. 5 is a schematic diagram of an operation and maintenance management module;

FIG. 6 is a schematic diagram of a patrol management module;

fig. 7 is a schematic diagram of a maintenance management module.

Detailed Description

The structure of the present invention will be further described with reference to the accompanying drawings and specific examples, which are not intended to limit the invention.

Example 1

An intelligent campus integrated system, as shown in figure 1, comprises a central processing module, and a basic management module, an alarm management module, a subsystem report management module, an operation and maintenance management module, a patrol management module, a maintenance management module and all subsystems matched with the integrated system, which are respectively in communication connection with the central processing module;

all subsystems matched with the integrated system comprise a fire automatic alarm system, a safety technology guard system, a dormitory management alarm subsystem, a kitchen range lighting subsystem, an electronic examination room matched subsystem and an emergency response subsystem;

the basic management module is used for adjusting system setting parameters and managing user information, and comprises a user authentication unit, a user management unit, a system configuration unit and a log management unit as shown in fig. 2;

user authentication unit: the independent user authentication management adopts unified single sign-on which is convenient for user management and memorization, provides a function application of unified identity authentication for users, does not need to input a user name and a password when switching to other systems, and achieves high-quality service of 'one-time sign-on and multiple-time access'.

User management unit: the system provides by default two user groups: administrative users and general users. The administrator advocacy can set access rights, access areas, access systems, editing rights, control rights and the like of operators for each subsystem; all the user's operation records will be automatically archived and cannot be deleted and modified.

System configuration unit: an initial configuration is provided that includes a project name, a location, a project picture, and a project profile. An editable function is provided, which can be modified by the user.

Log management unit: the user operation log can record the user operation platform data, and the exportable format is EXCEL; the system operation log can record interface communication and control instruction data of the subsystem equipment, and the exportable format is EXCEL.

The alarm management module is used for managing all subsystem alarm related information matched with the integrated system, and comprises a real-time alarm unit, a history alarm unit, an alarm classification and confirmation unit and an alarm linkage unit as shown in fig. 3;

the alarm management module mainly comprises two functions of real-time alarm and history alarm, when the alarm occurs, operators on duty perform corresponding operation according to system prompts, and when the alarm information is excessive, batch operation can be performed. And after the corresponding operation is finished, the alarm information after the neutralization treatment is converted into a historical alarm record.

Real-time alarm unit: the pie chart shows the percentage of the total alarm times occupied by different alarm levels on the same day; the line graph shows trend of different alarm levels in the same day; the form displays real-time alarm information, and in this area, a user can "confirm", "process" and open the video of the alarm area for a specific piece of alarm information.

History alarm unit: the pie chart displays the percentage of the total alarm times occupied by different alarm levels in units of days, months and years; the line graph displays trend of different alarm levels on the same day by taking the day, month and year as units; the table queries historical alert information according to time periods, levels, subsystems, states, and whether homologous alert conditions are merged.

Alarm classification and confirmation unit:

alarm classification: the system adopts a real-time alarm centralized management mode, can intensively display and process various alarms in each subsystem, and supports alarm level priority arrangement. The alarm level supports extension customization, and is divided into three levels by default: emergency, important and general alarms, in turn indicated by yellow, orange and red.

Alarm confirmation: when the system alarms, management personnel are prompted in various modes such as short messages, sound alarms, alarm lamps and the like according to alarm levels and categories, and alarm specific information is displayed. Until the alarm fault is processed, the manager manually releases the system alarm, confirms that the fault processing is finished, and the system can stop the alarm state and restore to be normal. When the alarm information is too much, all the confirmation can be clicked to carry out batch operation.

Alarm management:

all alarm and fault information generated by the system, a user can inquire historical alarm information according to time periods, levels, subsystems and states and whether homologous alarm conditions are combined or not, and statistics and trend analysis graphs of the historical alarm information are displayed according to time (day, month) and different levels of alarm modes.

When the network is abnormal in communication, the communication abnormality alarm is triggered, and when the communication is recovered to be normal, the alarm can be automatically released. The alarm system records the alarm starting time and the alarm eliminating time, and the recovered data can be automatically or manually repaired within a reasonable range to complete the data repairing work so as to ensure the integrity and the authenticity of the energy consumption data.

Alarm linkage unit: when the real-time alarm occurs, the video is clicked manually, a video window associated with the alarm point is popped up, and alarm condition confirmation is carried out. Under the condition of one machine with multiple screens, when the real-time alarm occurs, the electronic map is clicked manually, and the user can jump to the electronic map interface where the alarm point is located, so that the position where the alarm is located can be checked in a more visual mode.

The subsystem report management module is used for recording and managing the operation data information of all subsystems matched with the integrated system, and comprises a real-time state display unit and a history state display unit as shown in fig. 4;

the subsystem report management module can record the historical operation data of each intelligent subsystem and provide means for users to browse, inquire and analyze. Displaying a real-time graph (running data real-time change curve) and a historical trend graph (running data historical curve) of the information according to the needs of a user; displaying a histogram and a pie chart of the energy consumption data; user-defined and graphical display of any information in the database is supported. The software customizes the output report in a graphic manner, and the format of the report includes, but is not limited to, excel, PDF, hypertext, and the like.

Real-time state display unit: the real-time chart is continuously refreshed, dynamically changed, and the history chart is static, and the value of the history chart is specified by a user. The historical trend graph provides basis for system setting, operation monitoring, preventive maintenance, system maintenance decision-making and the like.

History state display unit: the user can display any parameter stored in the server in a trend chart mode according to actual needs. Namely: the trend graph supports user-defined queries and presentations.

Device operation history report: the user can query the device via the start date, expiration date, and subsystem, export the support in tabular form, and hold the export print. The system simultaneously supports the trend of each subsystem in different time periods of the custom query in a broken line form.

Device operation history trend graph: the equipment operation history trend graph displays operation data of each subsystem in different time periods by taking 'day, month and year' as units, and displays the operation data in a broken line form.

The operation and maintenance management module is used for adjusting parameters of all subsystems matched with the integrated system and managing operation worksheets of the integrated system, and comprises an equipment management unit and a worksheet management unit as shown in fig. 5;

device management unit: the device management is an important component in operation and maintenance management, and is divided into device template configuration and device information management.

Device template configuration: the equipment template is a complete standard attribute template, and related equipment can be quickly added based on the template, so that the equipment has abstract model concepts and is convenient for subsequent application operation. And supporting user-defined configuration.

Device information management: creation, modification, and deletion of devices may be accomplished based on the device templates.

And a work order management unit:

to-do worksheets

The work order to be handled is mainly an operation and maintenance user and can be understood as a customer service specialist, and the management module can realize the operation of the whole life cycle of the work order such as newspaper, dispatching, receiving, checking, accepting, evaluating, closing and the like.

Worksheet list

The work order list is that operation and maintenance manager can check the processing details of all work orders through the functional module, and the whole life cycle of the work orders is tracked, so that the problem can be conveniently managed and found. The manager can see the status of the work orders in time, including the created, processed, pending and completed work orders, and perform the next operation.

Mobile phone APP

The manager can carry out the whole-flow management of creating, approving, accepting, closing, verifying, evaluating the work orders and the like through the mobile phone APP; the mobile management of maintenance and inspection business can be performed; the functions of scanning codes and photographing are also supported. The work efficiency of staff is effectively improved, and the error rate of work orders is reduced.

The patrol management module is used for managing patrol information and comprises a patrol plan management unit and a patrol record management unit as shown in fig. 6;

patrol management module

The main functions of inspection management are to make a periodic inspection plan and to inspect the machine room and equipment by scanning the two-dimensional code of the machine room through the mobile phone APP. If the equipment is found to be abnormal in the inspection process, the equipment can be directly processed; such as failure notice that cannot be handled in the field.

In addition, the client may directly create the inspection plan. And the inspection responsible person designated by the inspection plan performs inspection at the APP end, and can perform equipment report operation in the process of performing the inspection plan.

A patrol plan management unit: and (3) making a periodic inspection plan, wherein the periodic inspection plan comprises machine room inspection, equipment inspection and custom inspection, and the inspection plan needs to be assigned to a responsible person.

A patrol record management unit: the inspection record management is mainly the inquiry of the execution state of the inspection record. The inspection record can be inquired and inquired according to the name, type and responsible person of the work order and the work order state as conditions.

The maintenance management module is used for managing maintenance information of all devices related to the integrated system, and comprises a maintenance plan management unit and a maintenance record query unit as shown in fig. 7;

the maintenance management module has the main functions of making equipment maintenance plans according to the day, week, month and year, and pushing the equipment maintenance plans to a maintainer APP according to the designated time in the form of a work order to carry out equipment maintenance work.

Maintenance plan management unit

Enabling a maintenance plan: and after the maintenance plan is started to take effect, the maintenance record can be generated. Clicking on the "Enable" font in the maintenance plan management page list, and enabling the maintenance plan.

Modifying the maintenance plan: clicking on the "modify" font in the maintenance plan management page list may modify the content of the maintenance plan.

Deleting the maintenance plan: clicking on the "delete" font in the maintenance plan management page list may delete the maintenance plan.

And the maintenance record inquiring unit is used for: and inputting a query condition, clicking the query above the maintenance record management page list, and querying the maintenance record.

The central processing module is used for acquiring the relevant states of all subsystems matched with the integrated system, transmitting the relevant states to the alarm management module, the subsystem report management module, the operation and maintenance management module and the maintenance management module, and transmitting control instructions generated by the operation and maintenance management module and the alarm management module to the subsystem corresponding to the control instructions.

The intelligent campus intelligent integrated system runs on a cloud server;

the intelligent campus integrated system can be operated by accessing the cloud server through the control center.

Those skilled in the art will understand that the skilled person can implement the modification in combination with the prior art and the above embodiments, and this will not be repeated here. Such modifications do not affect the essence of the present invention, and are not described herein.

The preferred embodiments of the present invention have been described above. It is to be understood that the invention is not limited to the specific embodiments described above, wherein devices and structures not described in detail are to be understood as being implemented in a manner common in the art; any person skilled in the art can make many possible variations and modifications to the technical solution of the present invention or modifications to equivalent embodiments without departing from the scope of the technical solution of the present invention, using the methods and technical contents disclosed above, without affecting the essential content of the present invention. Therefore, any simple modification, equivalent variation and modification of the above embodiments according to the technical substance of the present invention still fall within the scope of the technical solution of the present invention.

Claims (9)

1. An intelligent integrated system of wisdom campus, its characterized in that: the system comprises a central processing module, a basic management module, an alarm management module, a subsystem report management module, an operation and maintenance management module, a patrol management module, a maintenance and management module and all subsystems matched with an integrated system, wherein the basic management module, the alarm management module, the subsystem report management module, the operation and maintenance management module, the patrol management module, the maintenance and management module and the integrated system are respectively in communication connection with the central processing module;

the basic management module is used for adjusting system setting parameters and managing user information;

the alarm management module is used for managing all subsystem alarm related information matched with the integrated system;

the subsystem report management module is used for recording and managing the operation data information of all subsystems matched with the integrated system;

the operation and maintenance management module is used for adjusting parameters of all subsystems matched with the integrated system and managing operation worksheets of the integrated system;

the patrol management module is used for managing patrol information;

the maintenance management module is used for managing maintenance information of all devices related to the integrated system;

the central processing module is used for acquiring the relevant states of all subsystems matched with the integrated system, transmitting the relevant states to the alarm management module, the subsystem report management module, the operation and maintenance management module and the maintenance management module, and transmitting control instructions generated by the operation and maintenance management module and the alarm management module to the subsystem corresponding to the control instructions.

2. The intelligent campus integrated system according to claim 1, wherein all subsystems matched with the integrated system comprise a fire automatic alarm system, a safety technology protection system, a dormitory management alarm subsystem, a kitchen range lighting subsystem, an electronic examination room matched subsystem and an emergency response subsystem.

3. The intelligent campus integrated system according to claim 1, wherein the base management module comprises a user authentication unit, a user management unit, a system configuration unit, and a log management unit.

4. The intelligent campus integrated system according to claim 1, wherein the alarm management module comprises a real-time alarm unit, a history alarm unit, an alarm classification and confirmation unit and an alarm linkage unit.

5. The intelligent campus integrated system according to claim 1, wherein the subsystem report management module comprises a real-time status display unit and a history status display unit.

6. The intelligent campus integrated system of claim 1, wherein the operation and maintenance management module comprises a device management unit and a worksheet management unit.

7. The intelligent campus integrated system according to claim 1, wherein the patrol management module includes a patrol plan management unit and a patrol record management unit.

8. The intelligent campus integrated system according to claim 1, wherein the maintenance management module comprises a maintenance plan management unit and a maintenance record query unit.

9. The intelligent campus integrated system of claim 1, wherein the intelligent campus integrated system operates on a cloud server;

the intelligent campus integrated system can be operated by accessing the cloud server through the control center.

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