CN115115091A

CN115115091A - Park wisdom is with managing and control platform that can use based on panorama show

Info

Publication number: CN115115091A
Application number: CN202210549342.3A
Authority: CN
Inventors: 魏永; 尚书; 范海波; 曹志杰; 郭政; 刘涛
Original assignee: Anhui Jiyuan Software Co Ltd
Current assignee: Anhui Jiyuan Software Co Ltd
Priority date: 2022-05-20
Filing date: 2022-05-20
Publication date: 2022-09-27

Abstract

The invention discloses a park intelligent energy utilization control platform based on panoramic display, which comprises a sensing layer, a transmission layer, a platform layer and a user layer, wherein the platform layer comprises an operation monitoring module, an intelligent operation and inspection module, an energy efficiency management module, a value-added service management module, an equipment asset management module, a system management module, a statistical analysis module, a comprehensive energy management module and a scheduling and first-aid repair management module. The invention applies the technologies of cloud computing, big data, 5G and the like, and relies on the concept of Internet of things +, the power data, the environmental control parameters and the equipment running state of each distribution room in the park are monitored in real time, collected and analyzed in a centralized manner, the real-time running monitoring level of power supply equipment can be improved, faults are early warned in time, energy consumption monitoring and energy efficiency analysis are realized, value-added service is provided for energy conservation of the park, meanwhile, electric energy quality monitoring is realized, and suggestions are provided for optimizing the electric energy quality of the plant.

Description

Park wisdom is with managing and control platform that can use based on panorama show

Technical Field

The invention relates to the technical field of energy consumption control, in particular to a park intelligent energy consumption control platform based on panoramic display.

Background

Along with the continuous expansion of enterprise's power consumption scale, enterprise's power equipment and energy consumption management work increase in a large number, because the complexity of the special operating mode in power equipment, most of enterprises still adopt artificial mode to monitor these garden houses, consume a large amount of manpower and material resources, urgent needs promote current operating efficiency, improve distribution system information sharing and optimal scheduling fortune dimension benefit. On the other hand, with the rapid development of scientific technology, the integrated technology, the sensor technology and the network communication technology are mature day by day, and technical support is provided for the intelligent upgrade of the traditional park. However, most domestic operating parks are conventional parks, and the reliable operation of the equipment and the operation efficiency of an electric power system are still limited by the defects of low automation level of electric power equipment, relatively backward operation management mode, complex secondary wiring, easy interference on information transmission and the like.

The traditional service mode of manual inspection and paper recording of power utilization in the garden not only enables operation and maintenance cost to be high, but also enables maintenance level to be low, and operation defects and hidden dangers cannot be found in time. For sudden electrical faults, professional teams and professional means are not used for supporting, and emergency response speed is low. Because no power utilization efficiency analysis and management is carried out, the comprehensive energy conservation of enterprises cannot be realized, the electric energy is wasted, and the cost is increased. There are major problems as follows: (1) and (5) passive operation and maintenance. Manual tour, paper record, telephone communication lack intelligent means, are difficult to master equipment macroscopic condition, when equipment breaks down or hidden danger, can't know very first time, can't accomplish initiative prevention. (2) The operation and maintenance cost is high. A large amount of manpower and material resources are required to be consumed for regular inspection, and emergency repair cannot be performed immediately when problems are found; because the fault is not found in time, the fault equipment is passively maintained and replaced after a large fault occurs, and the maintenance cost is greatly improved. (3) The first-aid repair time is long. After a fault occurs, fault information cannot be identified and positioned immediately, on-site confirmation is needed, meanwhile, a user cannot effectively restrict an operation and maintenance unit, the repair progress is slow, the fault time is long, and the economic loss is large. (4) The blind area exists, and the risk prevention is weak. An electrician of a common enterprise does not obtain a high-voltage electrician qualification certificate, only can deal with low-voltage inspection, and cannot inspect a high-voltage power distribution room. Meanwhile, the existing distribution room is lack of an intelligent means, and potential hazards possibly existing in the distribution room can not be identified through historical big data. (5) And (6) data dispersion. The acquired power data are dispersed to form a 'data island', a unified analysis platform is not available, all data cannot be communicated, and the existing data application mainly shows original data, is lack of data correlation analysis in the transverse direction and data mining in the longitudinal direction and cannot give full play to data value.

Therefore, how to establish an intelligent energy management and control platform, construct a safety energy management and prevention maintenance system, and implement integrated intelligent energy management and control service covering safety energy management and control and high-efficiency energy management and control, is a technical difficulty to be solved urgently in the industry.

Disclosure of Invention

The invention aims to provide a park intelligent energy consumption control platform based on panoramic display so as to solve the problems in the background technology.

In order to achieve the purpose, the invention adopts the following technical scheme:

a park intelligent energy consumption control platform based on panoramic display comprises a perception layer, a transmission layer, a platform layer and a user layer, wherein the perception layer provides basic information data and service data and uploads the data to the transmission layer, the transmission layer is used for providing network, hardware and server environments and guaranteeing the operation of the platform, the transmission layer reconstructs and aggregates dispersed and heterogeneous applications and information resources, basic services are provided for the platform layer through a uniform access entrance, and the user layer provides a platform visual operation interface for a user to log in and operate; the platform layer includes:

the operation monitoring module is used for monitoring each device of the power distribution room in real time, displaying the environmental state and real-time operation data of the power distribution room and giving an alarm for parameters;

the intelligent operation and maintenance module is used for automatically inspecting the power distribution room according to the operation and maintenance inspection demand information, distinguishing operation and maintenance fault information, giving an alarm for a fault in time, generating a work order, distributing the work order to operation and maintenance personnel, and informing the operation and maintenance personnel to quickly process the fault in time;

the energy efficiency management module is used for discovering large power consumption loads and abnormal loads through classified subentry measurement of energy consumption data and analysis of same proportion, ring proportion, ranking and change, and simultaneously providing a professional power quality analysis function as a data base for power quality optimization;

the value-added service management module is used for analyzing the operation data of the electrical equipment and calculating the power utilization structural planning suggestion;

and the equipment asset management module is used for providing full life cycle management of the equipment and giving a predictive operation and maintenance suggestion through recording and analyzing the equipment operation data and the operation and maintenance data.

Preferably, the operation monitoring module comprises a panoramic map display unit, a topological view unit, an equipment monitoring unit, an intelligent alarm unit and a trend analysis unit; the equipment monitoring unit is used for monitoring the operation data of the equipment inside and outside the distribution room, including the temperature, the humidity, the water immersion liquid level and the smoke condition in the distribution room in real time; the topological view unit is used for carrying out data integration on the monitored operation data to generate a power grid topological structure; the panoramic map display unit is used for displaying the generated power grid topological structure in a panoramic map; the intelligent alarm unit is used for generating alarm information and displaying when the real-time operation data exceeds an alarm limit value, so that the monitoring of the power distribution station is not picture information any more, and static data and real-time dynamic data of each operation device and key points are attached, and indoor and outdoor comprehensive, full-life-cycle and real-time monitoring of the power distribution station is realized.

Preferably, the intelligent operation and inspection module comprises an inspection plan management unit, an inspection record management unit, a fault diagnosis management unit and an inspection operation management unit; the inspection plan management unit is used for sending the operation and maintenance inspection requirement information to a designated person and managing basic information of inspection requirements, including newly-added and modified operations; the inspection history management unit is used for managing the effective lookup of the inspection history in a space-time pattern; the fault diagnosis management unit is used for visualizing fault warning, fault rate statistics, fault real-time monitoring and fault GIS, early warning faults in time and providing detailed data for tracing and positioning the faults; the inspection operation management unit is used for managing inspection work orders generated in the inspection process, and the inspection work orders comprise facility repair work orders, work order maintenance quantity, statistical types and timeliness.

Preferably, the energy efficiency management module comprises an energy consumption monitoring unit, an energy efficiency analysis unit, a quality analysis unit and an energy efficiency evaluation unit; the energy consumption monitoring unit is used for summarizing and displaying the energy consumption data, the electric energy quality parameters and other data collected by the terminal equipment in the sensing layer; the energy efficiency analysis unit records and analyzes the energy consumption condition of the power distribution network, including the load condition of each phase, the operation efficiency, the power factor, the power quality and the power loss condition.

Preferably, the equipment asset management module comprises an account management unit, an asset management unit and an equipment health degree analysis unit, wherein the account management unit is used for adding, deleting and modifying the monitoring data of each monitoring equipment and viewing the data information of all the monitoring equipment; the asset management unit is used for managing assets such as related equipment and tools for operation and maintenance of the distribution network; the equipment health degree analysis unit is used for quantitatively analyzing and evaluating the running state of the equipment by calculating the equipment health degree according to the running state of the distribution network equipment.

Preferably, the data value-added service management module comprises an energy-saving modification service unit, an electric energy quality management unit and a data value-added service unit, wherein the electric energy quality management unit is used for monitoring electric energy quality indexes of enterprises, analyzing and evaluating the power supply quality level of the regional power network in real time, and dynamically generating an enterprise electric energy quality multidimensional statistical report or an analysis chart.

Preferably, the platform layer further comprises a system management module, and the system management module comprises a user residence management unit, a user authority management unit and a data management unit; the user registration management unit is used for the platform user to realize SSO single sign-on and issue service requirement information; the user authority management unit is used for system user management, user group management, role management, authority management and resource management; the data management unit is used for recording the running state of the platform in the daily use process, and recording, inquiring and managing user registration, data access and daily maintenance.

Preferably, the platform layer further comprises a statistical analysis module for providing various statistical analysis reports, including a report statistical unit and an operation report management unit, the statistical analysis report includes a maintenance work report, a supervision work report, an equipment failure rate statistical report, an equipment failure reason analysis report, and an operation and maintenance workload report.

Preferably, the platform layer further comprises an integrated energy management module, and the integrated energy management module comprises a load prediction unit, a multi-energy complementary unit, an energy consumption unit and a load balance management unit;

preferably, the platform layer further comprises a scheduling and first-aid repair management module, and the scheduling and first-aid repair management module comprises an automatic part sending unit, a spare part management unit, a vehicle scheduling unit and a personnel scheduling unit.

Preferably, the function of the transport layer is to provide data transmission between terminals of the management and control platform, and provide reliable data transmission service for each layer. The transport layer guarantees the reliability of data transmission over a given link through flow control, segment reassembly, and error control. The transmission layer mainly transmits relevant information of the perception layer and the platform layer, and the transmission mode is a wired local area network and simultaneously comprises wireless transmission modes such as Bluetooth, WIFI and 5G.

Preferably, the perception layer includes security protection module, equipment state management module and environmental monitoring module, wherein, the security protection module includes video monitoring unit and access control unit, and equipment state management module includes power quality unit, battery unit, local side detector unit, switch position monitoring unit and residual current unit, the environmental monitoring module includes humiture unit, smoke transducer unit, dehumidification unit and water sensor unit, and the perception layer uses various terminal equipment data collection, and the different modules of transmission to the platform layer are handled, and if the data information of humiture unit, smoke transducer, dehumidification unit and water sensor collection in the environmental monitoring module can show, store at the equipment monitoring unit of operation monitoring module.

Compared with the prior art, the invention has the following beneficial effects:

according to the intelligent power supply system, the cloud computing, big data, 5G and other emerging technologies are applied, and the concept of Internet of things +' is relied on, so that the power data, the environmental control parameters and the equipment states of all power distribution rooms in the park are collected and analyzed in a centralized manner, the real-time operation monitoring level of power supply equipment can be improved, the faults can be early warned in time, the energy consumption monitoring and the energy efficiency analysis are realized, and the value-added service is provided for the energy conservation of the park; monitoring the power quality and providing suggestions for optimizing the power quality of a plant; the method comprises the following specific steps:

(1) the method saves the trouble and solves the problem of the operation and maintenance of customers. Real-time monitoring and platform early warning by an online expert team, and regular analysis and diagnosis; the offline service team regularly distributes power, patrols and examines, detects and emergently salvagees, and the comprehensive distribution of specialty is moved and is maintained.

(2) Saves trouble and solves the problem of difficult professional guarantee of customers. The intelligent energy consumption control platform can continuously and actively monitor in real time, eliminate the information acquisition blind area of the traditional periodic manual inspection and papery record and change the unattended operation into unmanned operation or less operation; personnel, information and resources are dynamically allocated according to actual conditions, and the comprehensive efficiency is improved.

(3) Saving money and solving the problem of the operation cost of the client. Analyzing the electric charge structure, and providing an electric optimization scheme to save the electric charge expenditure of the user; and an optimization scheme is provided for the inside of the user according to the comparative analysis of the electric charge composition, the time-sharing electric charge, the capacity and the capacity electric charge, so that the economic energy utilization is realized.

(4) Saves labor and solves the problem of insufficient manpower of customers. Equipment machine account, operation record, fault information can all take notes inquiry traceable, convenient quick diagnosis trouble, possess spare parts, salvage the power supply, and the mobile phone APP in time looks over fault reason and fortune dimension situation.

(5) And adding value and increasing the value of the client data. And performing big data analysis on the operating data of the electrical equipment, calculating a structural planning suggestion of power utilization, and completing the conversion from empirical analysis to big data analysis. And the energy-saving modification service, the electric energy quality, the consultation service, the electric energy substitution and other data value increasing services are provided through huge data bases and big data analysis of the platform.

Drawings

Fig. 1 is a schematic structural diagram of a park intelligent energy consumption control platform based on panoramic display.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings and embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1, a schematic diagram of a park intelligent energy consumption management and control platform based on panoramic display is shown.

In the embodiment, the intelligent energy consumption control platform for the garden based on panoramic display comprises a perception layer, a transmission layer, a platform layer and a user layer, wherein the perception layer provides basic information data and service data and uploads the data to the transmission layer, the transmission layer is used for providing network, hardware and server environments and guaranteeing the operation of the platform, the transmission layer reconstructs and aggregates dispersed and heterogeneous applications and information resources, provides basic services for the platform layer through a uniform access entrance, and the user layer provides a platform visual operation interface for a user to log in and operate; the platform layer includes:

the operation monitoring module is linked with a web port in a user layer and a mobile phone APP user side, and is used for monitoring each device of the distribution room in real time, displaying the environmental state and real-time operation data of the distribution room and giving an alarm for parameters;

specifically, the operation monitoring module comprises a panoramic map display unit, a topological view unit, an equipment monitoring unit, an intelligent alarm unit and a trend analysis unit; the equipment monitoring unit is used for monitoring the operation data of the equipment inside and outside the distribution room, including the temperature, the humidity, the water immersion liquid level, the smoke condition and the like in the distribution room in real time; the topological view unit is used for performing data integration on the monitored operation data to generate a power grid topological structure; the panoramic map display unit is used for displaying the generated power grid topological structure in a panoramic map; and the intelligent alarm unit is used for generating alarm information and displaying the alarm information when the real-time operation data exceeds the alarm limit value. By the arrangement, the monitoring of the power distribution station is not picture information any more, and all running equipment, key point static data and real-time dynamic data are attached, so that indoor and outdoor comprehensive, full life cycle and real-time monitoring of the power distribution station are realized. The method is characterized in that the running states and real-time data (such as voltage, current, temperature, power consumption and the like) of electrical equipment, environment, security and the like of a power distribution room are visually monitored in a graphical mode, and custom monitoring pictures and WEB display pages are supported, wherein what you see is what you get. The user can check the real-time running condition of the distribution room through the WEB end and the mobile phone APP at the same time.

specifically, the intelligent operation and inspection module comprises an inspection plan management unit, an inspection record management unit, a fault diagnosis management unit and an inspection operation management unit; the inspection plan management unit is used for sending the operation and maintenance inspection requirement information to a designated person and managing the basic information of the inspection requirement, including newly-added and modified operations; the inspection history management unit is used for managing the effective lookup of the inspection history in a space-time pattern; the fault diagnosis management unit is used for visualizing fault warning, fault rate statistics, fault real-time monitoring and fault GIS, early warning faults in time and providing detailed data for tracing and positioning the faults; the inspection operation management unit is used for managing the inspection work order generated in the inspection process, and the inspection work order comprises a facility repair work order, the maintenance quantity of the work order, the statistical type and the time effectiveness. Through the setting of the mode is examined in the aforesaid "management of patrolling and examining + a key is reported and is repaiied + work aassessment" intelligence fortune, realized intelligent automatic patrolling and examining and the work order is distributed, the quick response of task to make convenient efficient fortune and examine personnel's workstation, promote fortune dimension efficiency and work experience comprehensively.

specifically, the energy efficiency management module comprises an energy consumption monitoring unit, an energy efficiency analysis unit, a quality analysis unit and an energy efficiency evaluation unit; the energy consumption monitoring unit is used for summarizing and displaying energy consumption data, electric energy quality parameters and other data collected by terminal equipment in the sensing layer; the energy efficiency analysis unit records and analyzes the energy consumption condition of the power distribution network, including the load condition of each phase, the operation efficiency, the power factor, the power quality and the power loss condition. By the arrangement, a basis for real-time decision analysis can be provided for operation and management personnel of the power distribution network, comprehensive understanding of the operation state of equipment and the operation condition of a system by the management personnel is met, and comprehensive management is facilitated for the management personnel; meanwhile, the energy consumption condition of an enterprise can be mastered through the mobile phone APP, and a scientific decision can be made in time.

Specifically, the equipment asset management module comprises an account management unit, an asset management unit and an equipment health degree analysis unit, wherein the account management unit is used for adding, deleting and modifying monitoring data of each monitoring equipment and viewing data information of all the monitoring equipment, including equipment asset types, specification models and key parameters of specific assets; the asset management unit is used for managing assets such as related equipment, tools and the like for operation and maintenance of the distribution network; the equipment health degree analysis unit is used for quantitatively analyzing and evaluating the running state of the equipment by calculating the equipment health degree according to the running state of the distribution network equipment. The device can be installed from factory, maintained in operation and scrapped, and can be efficiently operated through various process management measures, so that the service life of the device is prolonged, and the value of the device is maximized. Meanwhile, through recording and analyzing the equipment operation data and the operation and maintenance data, a predictive operation and maintenance suggestion can be given.

specifically, the data value-added service management module comprises an energy-saving modification service unit, an electric energy quality management unit and a data value-added service unit, wherein the electric energy quality management unit is used for monitoring electric energy quality indexes of enterprises, analyzing and evaluating the power supply quality level of a regional power network in real time, and dynamically generating an enterprise electric energy quality multidimensional statistical report or analysis chart. Through the arrangement, the real-time assessment and control on the power quality of users at all levels can be realized, and meanwhile, the power quality monitoring, analysis and power utilization guidance on the power utilization of a plurality of enterprises can be realized. According to the arrangement, the operation data of the electrical equipment is analyzed through cloud computing, artificial intelligence and big data analysis technologies, and the electricity utilization structural planning suggestion is calculated, so that the conversion from empirical analysis to big data analysis is completed.

In this embodiment, the platform layer further includes a system management module, and the system management module includes a user presence management unit, a user right management unit, and a data management unit; the user registration management unit is used for the platform user to realize SSO single sign-on and issue service requirement information; the user authority management unit is used for system user management, user group management, role management, authority management and resource management; the data management unit is used for recording the running state of the platform in the daily use process, and recording, inquiring and managing user registration, data access and daily maintenance.

In this embodiment, the platform layer further includes a statistical analysis module for providing various statistical analysis reports, including a report statistics unit and an operation report management unit, where the statistical analysis report includes a maintenance work report, a supervision work report, an equipment fault rate statistics report, an equipment fault cause analysis report, and an operation and maintenance workload report. The operation and maintenance working condition of the whole park energy utilization management and control platform and the relevant management function of the operation condition of the outfield equipment can be displayed through the setting.

In this embodiment, the platform layer further includes an integrated energy management module, and the integrated energy management module includes a load prediction unit, a multi-energy complementation unit, an energy consumption unit, and a load balance management unit;

in this embodiment, the platform layer still includes the management module is salvaged in the dispatch, and the management module is salvaged in the dispatch includes automatic dispatch unit, spare parts management unit, vehicle dispatch unit and personnel's dispatch unit.

In this embodiment, the function of the transport layer is to provide data transmission between terminals of the management and control platform, and provide reliable data transmission service for each layer. The transport layer guarantees the reliability of data transmission over a given link through flow control, segment reassembly, and error control. The transmission layer mainly transmits the related information of the perception layer and the platform layer, and the main transmission mode is a wired local area network and simultaneously comprises wireless transmission modes such as Bluetooth, WIFI and 5G.

In this embodiment, the perception layer includes the security protection module, equipment state management module and environmental monitoring module, wherein, the security protection module includes video monitoring unit and entrance guard control unit, equipment state management module includes the electric energy quality unit, the battery unit, the local detector unit, on-off monitoring unit and residual current unit, environmental monitoring module includes humiture unit, smoke transducer unit, dehumidification unit and water sensor unit, the perception layer uses various terminal equipment data collection, transmit to the different modules in the platform layer and handle, if through the humiture unit in the environmental monitoring module, smoke transducer, the data information that dehumidification unit and water sensor gathered can show in the equipment monitoring unit of operation monitoring module, store.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. A park intelligent energy utilization control platform based on panoramic display comprises a perception layer, a transmission layer, a platform layer and a user layer, wherein the perception layer provides basic information data and service data and uploads the data to the transmission layer, the transmission layer is used for providing network, hardware and server environments and guaranteeing the operation of the platform, the transmission layer reconstructs and aggregates dispersed and heterogeneous applications and information resources, basic services are provided for the platform layer through a uniform access entrance, and the user layer provides a platform visual operation interface for a user to log in and operate; the method is characterized in that: the platform layer includes:

2. The intelligent campus energy management and control platform based on panoramic display of claim 1, wherein: the operation monitoring module comprises a panoramic map display unit, a topological view unit, an equipment monitoring unit, an intelligent alarm unit and a trend analysis unit; the equipment monitoring unit is used for monitoring the operation data of the equipment inside and outside the power distribution room in real time, wherein the operation data comprises the temperature, the humidity, the water immersion liquid level and the smoke condition inside the power distribution room; the topological view unit is used for carrying out data integration on the monitored operation data to generate a power grid topological structure; the panoramic map display unit is used for displaying the generated power grid topological structure in a panoramic map; and the intelligent alarm unit is used for generating alarm information and displaying the alarm information when the real-time operation data exceeds the alarm limit value.

3. The intelligent campus energy management and control platform based on panoramic display of claim 1, wherein: the intelligent operation inspection module comprises an inspection plan management unit, an inspection record management unit, a fault diagnosis management unit and an inspection operation management unit; the inspection plan management unit is used for sending the operation and maintenance inspection requirement information to a designated person and managing basic information of inspection requirements, including newly-added and modified operations; the inspection history management unit is used for managing the effective lookup of the inspection history in a space-time pattern; the fault diagnosis management unit is used for visualizing fault warning, fault rate statistics, fault real-time monitoring and fault GIS, early warning faults in time and providing detailed data for tracing and positioning the faults; the inspection operation management unit is used for managing inspection work orders generated in the inspection process, and the inspection work orders comprise facility repair work orders, work order maintenance quantity, statistical types and timeliness.

4. The intelligent campus energy management and control platform based on panoramic display of claim 1, wherein: the energy efficiency management module comprises an energy consumption monitoring unit, an energy efficiency analysis unit, a quality analysis unit and an energy efficiency evaluation unit; the energy consumption monitoring unit is used for summarizing and displaying energy consumption data, electric energy quality parameters and other data collected by terminal equipment in a sensing layer; the energy efficiency analysis unit is used for recording and analyzing the energy consumption condition of the power distribution network, including the load condition of each phase, the operation efficiency, the power factor, the power quality and the power loss condition.

5. The intelligent campus energy management and control platform based on panoramic exhibition of claim 1, wherein: the equipment asset management module comprises an account management unit, an asset management unit and an equipment health degree analysis unit, wherein the account management unit is used for adding, deleting and modifying monitoring data of each monitoring equipment and checking data information of all the monitoring equipment; the asset management unit is used for managing related equipment and tool assets for operation and maintenance of the distribution network; the equipment health degree analysis unit is used for quantitatively analyzing and evaluating the running state of the equipment by calculating the equipment health degree according to the running state of the distribution network equipment.

6. The intelligent campus energy management and control platform based on panoramic display of claim 1, wherein: the data value-added service management module comprises an energy-saving transformation service unit, an electric energy quality management unit and a data value-added service unit; the power quality management unit is used for monitoring power quality indexes of enterprises, analyzing and evaluating the power supply quality level of the regional power network in real time, and dynamically generating an enterprise power quality multidimensional statistical form or analysis chart.

7. The intelligent campus energy management and control platform based on panoramic exhibition of claim 1, wherein: the platform layer also comprises a system management module, wherein the system management module comprises a user access management unit, a user authority management unit and a data management unit; the user registration management unit is used for the platform user to realize SSO single sign-on and issue service requirement information; the user authority management unit is used for system user management, user group management, role management, authority management and resource management; the data management unit is used for recording the running state of the platform in the daily use process, and recording, inquiring and managing user registration, data access and daily maintenance.

8. The intelligent campus energy management and control platform based on panoramic display of claim 1, wherein: the platform layer further comprises a statistical analysis module for providing various statistical analysis reports, including a report statistical unit and an operation report management unit, wherein the statistical analysis reports comprise a maintenance work report, a supervision work report, an equipment fault rate statistical report, an equipment fault reason analysis report and an operation and maintenance workload report.

9. The intelligent campus energy management and control platform based on panoramic exhibition of claim 1, wherein the intelligent campus energy management and control platform comprises: the platform layer further comprises an integrated energy management module, and the integrated energy management module comprises a load prediction unit, a multi-energy complementary unit, an energy consumption unit and a load balance management unit.

10. The intelligent campus energy management and control platform based on panoramic display of claim 1, wherein: the sensing layer comprises a security module, an equipment state management module and an environment monitoring module, wherein the security module comprises a video monitoring unit and an access control unit, the equipment state management module comprises an electric energy quality unit, a storage battery unit, a local side detector unit, a switch position monitoring unit and a residual current unit, and the environment monitoring module comprises a temperature and humidity unit, a smoke sensor unit, a dehumidification unit and a water sensor unit.