CN111709643B

CN111709643B - Smart park management system, method, computer device and storage medium

Info

Publication number: CN111709643B
Application number: CN202010549021.4A
Authority: CN
Inventors: 陈元峰; 郭晓斌; 马溪原; 林冬; 张子昊; 李敏; 俞靖一; 黄彦璐; 于海洋
Original assignee: Southern Power Grid Digital Grid Research Institute Co Ltd
Current assignee: Southern Power Grid Digital Grid Research Institute Co Ltd
Priority date: 2020-06-16
Filing date: 2020-06-16
Publication date: 2022-11-25
Anticipated expiration: 2040-06-16
Also published as: CN111709643A

Abstract

The present application relates to a smart park management system, method, computer device and storage medium. The system comprises: the system comprises a basic equipment management module, a park energy consumption monitoring module, a park energy consumption analysis module and a park energy consumption adjusting module, wherein the basic equipment management module is used for collecting equipment information of energy basic equipment of each unit in a park; the park energy utilization monitoring module is used for acquiring energy data of the energy basic equipment according to the equipment information; the park energy consumption analysis module is used for determining energy consumption characteristic information of the energy basic equipment according to the energy data; and the park energy utilization adjusting module is used for acquiring energy-saving control information corresponding to the energy consumption characteristic information and controlling the operation of the energy basic equipment of each unit according to the energy-saving control information. By adopting the system, the information intercommunication among all units in the park can be realized, and the quality and the efficiency of energy management in the park can be effectively improved.

Description

Smart park management system, method, computer device and storage medium

Technical Field

The present application relates to the field of campus management technologies, and in particular, to a smart campus management system, method, computer device, and storage medium.

Background

With the rapid development and deep application of new technologies such as global internet of things, big data, cloud computing and artificial intelligence, more and more enterprises are gradually started up, in order to meet the requirements of industrial production and scientific experiments, the intelligent park is expanded in a large scale, and the consumed energy is gradually increased. Therefore, how to reduce the consumption of unnecessary energy and improve the utilization rate of energy is an urgent problem to be solved. However, since the information of each unit in the intelligent park is independent from each other, the mutual correlation degree is not large, and the comprehensive management of each unit energy of the park is very difficult.

Disclosure of Invention

In view of the above, it is necessary to provide an intelligent campus management system, method, computer device, and storage medium, which solve the above-mentioned technical problem that it is difficult to comprehensively manage energy resources of each unit of a campus.

A smart campus management system, the system comprising: a basic equipment management module, a garden energy consumption monitoring module, a garden energy consumption analysis module and a garden energy consumption adjusting module, wherein,

the basic equipment management module is used for acquiring the equipment information of the energy basic equipment of each unit in the park and sending the equipment information of the energy basic equipment of each unit to the park energy utilization monitoring module;

the park energy consumption monitoring module is used for acquiring energy data acquired by the sensor corresponding to the energy basic equipment of each unit according to the equipment information of the energy basic equipment of each unit and sending the energy data of the energy basic equipment of each unit to the park energy consumption analysis module;

the park energy consumption analysis module is used for determining energy consumption characteristic information of the energy basic equipment of each unit according to the energy data of the energy basic equipment of each unit and sending the energy consumption characteristic information of the energy basic equipment of each unit to the park energy consumption adjustment module;

the energy utilization adjusting module is used for acquiring energy-saving control information corresponding to the energy consumption characteristic information of the energy basic equipment of each unit, and the energy-saving control information is used as the energy-saving control information of the energy basic equipment of each unit; and controlling the operation of the energy type basic equipment of each unit according to the energy saving control information of the energy type basic equipment of each unit.

In one embodiment, the campus energy consumption monitoring module is further configured to invoke a preset fault detection instruction according to the energy data of the energy basic devices of each unit, so as to perform fault detection on the energy basic devices of each unit in the campus; and calling a preset abnormity early warning instruction to carry out abnormity early warning when the abnormity of the energy basic equipment is detected.

In one embodiment, the system further comprises: a communication network construction module; the basic equipment management module is also used for acquiring the equipment information of the communication basic equipment of each unit in the park and sending the equipment information of the communication basic equipment of each unit to the communication network construction module;

the communication network construction module is used for providing voice or network port application service for the communication basic equipment of each unit in the park according to the equipment information of the communication basic equipment of each unit, and establishing the information ledger of each unit.

In one embodiment, the reference device management module is further configured to establish a basic information ledger of the energy basic device and the communication basic device of each unit, dynamically configure the attributes and the relationships of the energy basic device and the communication basic device according to the basic information ledger, and construct a three-dimensional visual map corresponding to the energy basic device and the communication basic device according to the device information of the energy basic device and the device information of the communication basic device.

In one embodiment, the system further comprises: a system configuration module, a safety protection management and control module, a park property management module and a park convenient management module, wherein,

the system configuration module is used for configuring components required by the intelligent park management system application;

the safety protection management and control module is used for monitoring personnel and/or objects through safety protection equipment arranged in each unit in the park; when the abnormal condition is monitored, calling a preset early warning instruction to automatically early warn;

the park property management module is used for pushing corresponding on-line intelligent management service information to each unit in the park according to property business information of each unit in the park;

and the park convenient management module is used for pushing corresponding personalized service information to each unit in the park, and controlling the intelligent terminals in each unit through the terminal information of the intelligent terminals in each unit so as to realize convenient management of the park.

In one embodiment, the system further comprises: a data interaction module and a message pushing module, wherein,

the data interaction module is used for connecting with other systems in the park, acquiring corresponding data from the other systems, and sending the data to the message pushing module and the park convenient management module so as to be called by the message pushing module and the park convenient management module;

the information pushing module is used for pushing the energy consumption characteristic information of the energy type basic equipment of each unit in the park energy consumption analysis module, the energy consumption control information of the energy type basic equipment of each unit in the park energy consumption adjustment module, the monitoring information of the safety protection management and control module, the data information of the data interaction module, the data information of the park property management module and the data information of the park convenient management module through a plurality of preset information pushing modes.

In one embodiment, the basic device management module, the park energy consumption monitoring module, the park energy consumption analysis module, the park energy consumption adjustment module, the system configuration module, the communication network construction module, the security protection management and control module, the data interaction module, the park property management module, the park convenience management module and the message push module are all deployed by adopting a micro-service architecture, and provide services to the outside through an application program interface gateway.

A method of intelligent campus management, the method comprising:

collecting equipment information of energy basic equipment of each unit in the park;

acquiring energy data acquired by a sensor corresponding to the energy basic equipment of each unit according to the equipment information of the energy basic equipment of each unit;

determining energy consumption characteristic information of the energy type basic equipment of each unit according to the energy data of the energy type basic equipment of each unit;

acquiring energy-saving control information corresponding to the energy consumption characteristic information of the energy basic equipment of each unit, and taking the energy-saving control information as the energy-saving control information of the energy basic equipment of each unit; and controlling the operation of the energy type basic equipment of each unit according to the energy saving control information of the energy type basic equipment of each unit.

A computer device comprising a memory and a processor, the memory storing a computer program, the processor implementing the following steps when executing the computer program:

acquiring energy data acquired by a sensor corresponding to the energy type basic equipment of each unit according to the equipment information of the energy type basic equipment of each unit;

A computer-readable storage medium, on which a computer program is stored which, when executed by a processor, carries out the steps of:

According to the intelligent park management system, the intelligent park management method, the computer equipment and the storage medium, the equipment information of the energy basic equipment of each unit in the park is collected firstly, the energy data collected by the sensor corresponding to the energy basic equipment of each unit is obtained according to the equipment information of the energy basic equipment of each unit, the energy consumption characteristic information of the energy basic equipment of each unit is determined according to the energy data of the energy basic equipment of each unit, the energy saving control information corresponding to the energy consumption characteristic information of the energy basic equipment of each unit is obtained, the operation of the energy basic equipment of each unit is controlled according to the energy saving control information of the energy basic equipment of each unit, the energy management quality and efficiency of the energy of each unit can be effectively improved by collecting the energy information data of each unit, collecting and integrating the data of each unit and then carrying out unified analysis, so that the energy saving control information of each energy basic equipment is obtained, the information intercommunication among the units in the park is realized, and the energy management quality and efficiency of the energy of each unit in the park can be effectively improved, thereby solving the technical problem that the comprehensive management of the energy of each unit in the park is difficult to carry out.

Drawings

FIG. 1 is a block diagram of an intelligent park management system in one embodiment;

FIG. 2 is a diagram illustrating the relationship between modules of the intelligent campus management system in one embodiment;

FIG. 3 is a functional architecture diagram of the modules of the intelligent campus management system in one embodiment;

FIG. 4 is a block diagram of an intelligent campus management system according to one embodiment;

FIG. 5 is a diagram illustrating an embodiment of security measures performed by the intelligent campus management system when interacting with external system information;

FIG. 6 is a diagram of the microservice architecture of the intelligent campus management system in one embodiment;

FIG. 7 is a flowchart illustrating a method for managing an intelligent park in one embodiment;

FIG. 8 is a block diagram of an intelligent campus management device according to an embodiment;

FIG. 9 is a diagram of an internal structure of a computer device in one embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of and not restrictive on the broad application.

In one embodiment, as shown in fig. 1, there is provided an intelligent park management system, including: basic unit management module 102, the garden is with can monitoring module 104, the garden is with can analysis module 106 and the garden is with can adjustment module 108, wherein, basic unit management module 102 and the garden are with can monitoring module 104 and communicate through the network, the garden is with can monitoring module 104 and the garden communicates with each other through the network with can analysis module 106, the garden is with can the adjustment module 108 with the garden and communicate through the network.

The base device management module 102 is configured to collect device information of the energy base devices of each unit in the park, and send the device information of the energy base devices of each unit to the park energy consumption monitoring module 104. The energy consumption monitoring module 104 is configured to obtain energy data acquired by the sensor corresponding to the energy basic device of each unit according to the device information of the energy basic device of each unit, and send the energy data of the energy basic device of each unit to the energy consumption analysis module 106. The park energy consumption analysis module 106 is configured to determine energy consumption characteristic information of the energy base devices of each unit according to the energy data of the energy base devices of each unit, and send the energy consumption characteristic information of the energy base devices of each unit to the park energy consumption adjustment module 108. The park energy utilization adjusting module 108 is configured to acquire energy saving control information corresponding to energy consumption characteristic information of the energy type basic devices of each unit, and use the energy saving control information as energy saving control information of the energy type basic devices of each unit; and controlling the operation of the energy type basic equipment of each unit according to the energy saving control information of the energy type basic equipment of each unit.

The device information indicates data information such as the type, number, and mounting position of the devices.

The energy basic equipment comprises a wind driven generator, a power distribution cabinet, a transformer, a power line, a charging pile, electrical equipment, water utilization equipment, gas utilization equipment and the like; the energy data comprises voltage, current, power and accumulated generated energy of the wind driven generator, the quantity of inlet and outlet ends of the power distribution cabinet, the electric quantity of a transformer, the temperature of an iron core, partial discharge and noise of power distribution equipment, the voltage and current of a power line, the voltage, current and power of a charging pile, the electric quantity, water consumption and gas consumption of each unit in a park and the like.

The energy consumption characteristic information represents characteristic information of energy usage of the energy-based infrastructure, for example, in a specific time period or a specific climate condition, energy consumption of a certain energy-based infrastructure is high, and in other time periods, energy consumption is low.

The energy-saving control information represents information related to control measures for reducing energy consumption of the energy-source-type infrastructure equipment, such as a peak load shifting strategy, replacement of energy-saving equipment, peak-to-valley cost difference energy utilization method, and turning off of air conditioners and lighting equipment in an unmanned state.

In the specific implementation, energy collecting devices such as a low-voltage load monitoring device (electromagnetic type), a low-voltage load monitoring sensor (micro-sensing), an IOT all-in-one machine electrically connected with a converter control module, a vibration frequency collector and the like can be arranged for energy basic devices of each unit of the park respectively so as to collect energy data of each unit of the energy basic devices. After the park energy consumption monitoring module 104 receives the device information of the energy base devices of each unit sent by the base device management module 102, the corresponding energy collection device can be determined according to the device information of the energy base devices of each unit, the energy data of the energy base devices of each unit is obtained through the energy collection device, and the energy data is sent to the park energy consumption analysis module 106. The park energy consumption analysis module 106 determines the energy characteristic information of the energy basic devices of each unit according to the energy data of the energy basic devices of each unit and sends the energy characteristic information to the park energy consumption adjustment module 108, so that the park energy consumption adjustment module 108 obtains the energy saving control information corresponding to the energy characteristic information of the energy basic devices of each unit and controls the energy basic devices of each unit according to the energy saving control information of the energy basic devices of each unit. In addition, the park energy consumption monitoring module 104 further provides a data query interface for energy data of each energy type basic device, the park energy consumption analysis module 106 further provides a result of the park energy consumption analysis, that is, a query interface for energy consumption characteristic information of each energy type basic device, the park energy consumption adjustment module 108 further provides a query interface for energy saving control information of each energy type basic device, and dynamic optimization adjustment of the energy saving control information can be realized by setting external relevant factors.

In practical applications, because the types, the number, and the installation positions of the energy-based basic devices may change, the basic device management module 102 may also support automatic update of device information, that is, the device information of the energy-based basic devices of each unit may be automatically acquired at regular time, so as to automatically update the device information.

Further, in one embodiment, the park energy utilization adjustment module 108 may control the energy-based infrastructure of each unit according to the peak-load-shifting strategy, the energy-saving equipment replacement strategy, the peak-load price difference economic energy utilization method, and the energy-saving control information such as turning off the air conditioner and the lighting equipment in an unmanned state. The peak clipping and valley filling strategy is specifically realized by counting peak-valley time periods and interruptible loads of the electricity price, switching off the interruptible loads in the peak time periods, switching on the interruptible loads in the valley time periods, and calculating the economic benefit according to the electricity price information. Assuming that the electricity price during the peak period is p1, the amount of electricity required to be consumed by the load that is off during the peak period is E1, the electricity price during the valley period is p2, and the amount of electricity required to be consumed by the load that is on during the valley period is E2, the obtainable economic benefit can be estimated as: e1p1-E2p2. The energy-saving equipment replacement can be realized by mining the energy-saving potential of the equipment end, and the specific method comprises the steps of calculating the average load of the energy utilization conditions of various energy type basic equipment, comparing the average energy consumption of domestic equipment, and if the energy consumption of certain energy type basic equipment in a park is higher than the average energy consumption, systematically proposing to replace the energy type basic equipment with the energy-saving equipment. The peak-valley price difference economic energy utilization method is realized by counting the peak-valley price difference, turning off unnecessary loads and charging the stored energy in the peak time period, and turning on the loads turned off in the peak time period and charging the stored energy in the valley time period. The control of the air conditioner and the lighting equipment can utilize the video cloud node to identify the face, and the air conditioner and the lighting are automatically turned off through the system in an unmanned state.

Further, in an embodiment, the campus energy usage analysis module 106 may be specifically configured to: the method comprises the steps of analyzing energy consumption of each unit of the park, benchmarking energy efficiency of each unit, analyzing electricity utilization characteristics of each unit, tracing energy consumption of each unit and analyzing energy utilization cost of each unit. The energy consumption analysis of each unit of the park can be displayed in the form of a curve graph, a pie chart or a bar chart according to the time dimension of year, month and day, so as to determine the change trend or characteristics of the power consumption and the water consumption. The energy consumption and the yield of each unit (such as a factory building) in the park can be counted according to the energy efficiency benchmarks of each unit, the production cost of each unit is the monthly energy consumption cost/monthly yield, the production cost of the advanced units at home and abroad is manually input into the smart park management system, and the production cost of each unit in the park is compared with the production cost of the advanced units at home and abroad. The power utilization characteristic analysis of each unit can use the building of each unit as a dimension, determine the total load and the power consumption of each building, show the total load and the power consumption by a graph according to the time dimension, and further analyze the power utilization characteristics of each unit, for example, in summer or winter, the power utilization load of each building can be increased due to the fact that an air conditioner is turned on, and the load of each building can be larger in working day time due to working requirements. Tracing the energy consumption of each unit, taking the factory buildings of each unit as dimensions, calculating the unit consumption of products of each factory building, finding out the factory buildings with the unit consumption obviously higher or lower than the average level or the international advanced production level, calculating the unit consumption of the products of each production workshop in the factory buildings, finding out the production workshops with the unit consumption obviously higher or lower than the average level and the international advanced production level, and calculating the unit consumption of the products of each production line in the production workshops until finding out the production line with abnormal energy consumption. The energy consumption cost of each unit is analyzed, the electricity consumption, the water consumption and the gas consumption of each unit in the park can be monitored at one point every 15 minutes, the electricity fee, the water fee and the gas fee of each unit are respectively calculated by combining the peak-valley difference electricity price, the sum of the electricity fee, the water fee and the gas fee is used as the energy consumption cost of each unit, and the energy consumption cost is statistically displayed according to the dimensions of the year, the month and the day.

Above-mentioned wisdom garden management system, through the energy information data of gathering each unit, collect the data of each unit and integrate the back, carry out unified analysis again, obtain the energy-saving control information of each energy class basic unit, realize the information intercommunication between each unit, can effectively improve energy management quality and efficiency in the garden, thereby, avoid information islanding serious between each unit, information transmission is not smooth to lead to being difficult to the problem of unified integrated management, furtherly, the cost that the management operation in reducible garden consumes.

In an embodiment, the campus energy consumption monitoring module 104 is further configured to call a preset fault detection instruction according to energy data of the energy basic devices of each unit, and perform fault detection on the energy basic devices of each unit in the campus; and when detecting that the energy basic equipment is abnormal, calling a preset abnormal early warning instruction to perform abnormal early warning.

In the concrete implementation, after the energy consumption monitoring module of the park acquires the energy data of the energy basic equipment through the sensor corresponding to the energy basic equipment of each unit, a preset fault detection instruction can be called to judge whether the energy basic equipment of each unit has a fault, when the detection result is that the fault exists, a preset abnormal early warning instruction can be called to perform abnormal early warning so as to inform a manager to maintain the fault equipment, and the real-time monitoring of the energy basic equipment of each unit is realized. In addition, the park energy consumption monitoring module also provides the functions of setting and modifying data thresholds, events and early warning rules, and can modify the early warning rules and the fault detection rules. The fault detection device comprises a fault detection device, a fault warning device and a fault warning device, wherein each type of energy basic equipment is provided with a corresponding fault detection command, and the abnormal warning commands of each type of energy basic equipment can be the same or different.

More specifically, monitoring of the energy infrastructure of each unit on the campus may include: the operation state of the distributed energy is monitored, the power distribution state of each unit in the park is monitored, the charging pile of each unit in the park is monitored, and the energy consumption of each unit in the park is monitored. The method for monitoring the running state of the distributed energy comprises the following steps: after energy data such as voltage, current, power and accumulated generated energy of a wind driven generator (or a photovoltaic generator or energy storage equipment) are obtained, a fault detection instruction corresponding to the wind driven generator is called to detect the energy data, and if the obtained energy data such as the voltage and the current are in a normal range, the wind driven generator can be judged to be in a normal operation state; if the voltage exceeds a limited range or the current harmonic wave is large and other abnormal conditions exist, the wind driven generator can be judged to be in an abnormal operation state, and an abnormal early warning instruction can be called to perform abnormal early warning on the wind driven generator. In addition, when the energy data of the wind driven generator cannot be acquired, the wind driven generator can be judged to be abnormal, and an abnormal early warning instruction can be called to perform abnormal early warning on the wind driven generator. Monitoring the power distribution state of each unit in the park further comprises: monitoring a transformer, a power line and a power distribution cabinet, calling a fault detection instruction corresponding to the transformer after acquiring running state parameters of the transformer, such as electrical quantity, iron core temperature, partial discharge of distribution equipment, noise and the like, when monitoring the transformer, detecting the running state parameters, indicating that the transformer works abnormally if finding that running state parameter indexes exceed a conventional limited running range, calling an abnormal early warning instruction, and performing abnormal early warning on the transformer. When the power line is monitored, a fault detection instruction corresponding to the power line can be called after the voltage and the current of the power line are obtained, the voltage and the current are detected, if the voltage and the current deviate from normal conditions, the line is indicated to have faults, at the moment, an abnormity early warning instruction can be called, and abnormity early warning is carried out on the power line. When the power distribution cabinet is monitored, the number of the wire inlet ends and the number of the wire outlet ends of the power distribution cabinet can be detected, if the wire inlet ends or the wire outlet ends do not have collected communication signals, an abnormal early warning instruction is called, and a warning signal is sent out to indicate communication interruption. Monitoring the charging pile of each unit in the park, calling a fault detection instruction corresponding to the charging pile after acquiring energy data such as voltage, current and power of the charging pile, if the voltage or the current of the charging pile exceeds a normal working range, disconnecting the charging pile for charging at the moment, indicating that the charging pile breaks down, recording the fault type of the charging pile at the moment, calling an abnormal early warning instruction, and performing abnormal early warning on the charging pile. The method for monitoring the energy consumption of each unit in the park comprises the following steps: the method comprises the steps of collecting energy data such as electrical quantity, water consumption and gas consumption of each unit in a park by taking a building as a unit, calling a corresponding fault detection instruction, and indicating that the power consumption condition is abnormal when the consumption of the electrical quantity (or the water consumption or the gas consumption) in unit time exceeds a set threshold value, calling an abnormal early warning instruction at the moment, and performing abnormal early warning on electrical equipment.

Preferably, in order to facilitate monitoring of the energy basic devices of each unit of the park, a comprehensive pipe network of various energy sources such as an electric power topology single line diagram, a water pipe network topology diagram and a gas pipe network topology diagram in the park can be established, so that managers can rapidly know the layout structure of the park, rapidly determine early warning points according to the layout structure, and facilitate subsequent rectification of the layout of various energy devices according to the layout structure.

In this embodiment, fault detection is performed on each energy type basic device through the acquired energy data of the energy type basic devices of each unit, and when an abnormality of the energy type basic device is detected, an abnormality early warning instruction is called to perform abnormality early warning, so that a manager can maintain the abnormal energy type basic device in time.

In one embodiment, the intelligent park management system further includes: a communication network construction module; the basic device management module 102 is further configured to collect device information of communication basic devices of each unit in the campus, and send the device information of the communication basic devices of each unit to the communication network construction module; and the communication network construction module is used for providing voice or network port application service for the communication basic equipment of each unit in the park according to the equipment information of the communication basic equipment of each unit and establishing an information ledger of each unit.

The ledger represents an auxiliary book provided by an enterprise to enhance management of a certain aspect and to understand information of the certain aspect in more detail.

In practical application, the basic device management module collects the device information of the energy basic devices of each unit in the campus, and also collects the device information of the communication basic devices of each unit, and sends the device information of the communication basic devices of each unit to the communication network construction module, so that the communication network construction module provides application services such as voice or network port on-off monitoring, call frequency statistics, call address distribution and the like for the communication basic devices of each unit, and establishes an information ledger of each unit.

Further, in an embodiment, the reference device management module 102 is further configured to establish a basic information ledger of the energy base device and the communication base device of each unit, dynamically configure attributes and relationships of the energy base device and the communication base device according to the basic information ledger, and construct a three-dimensional visual map corresponding to the energy base device and the communication base device according to the device information of the energy base device and the device information of the communication base device.

The dynamic configuration of the attributes and relationships of the basic devices such as the energy basic device and the communication basic device includes increasing, decreasing, modifying the position relationship between a certain basic device or each basic device, and in addition, each basic device can be associated with the running state data of itself, and when a three-dimensional visual map corresponding to the energy basic device and the communication basic device is constructed, a jsplimb component (a flow chart or a topological diagram drawing component) can be utilized to construct the three-dimensional visual map based on the connection relationship between the basic devices.

More specifically, the communication network construction module may be used to construct public broadcasting, cable tv, information networks, wireless coverage, etc., and when the communication network construction module is used to construct public broadcasting, an embedded hardware terminal may be used at the broadcast playing terminal, and the hardware terminal may set an independent IP Address (Internet Protocol Address), and may optionally control the setting and playing of each broadcast playing terminal through the smart campus management system by using the existing internal lan through a multi-layer switch. When the intelligent park management system is used for limited television construction, videos can be configured for each IP outlet terminal, and the intelligent park management system can receive video on demand requirements of users and play programs selected by the users. When used for information networks and wireless coverage, the system can provide the function of monitoring the communication disconnection state and the communication speed of each IP.

In this embodiment, the communication network construction module provides the required application service and function for each unit in the park by calling the device information of the communication type basic devices of each unit, which is acquired by the basic device management module, so as to facilitate the production construction of each unit.

the safety protection management and control module is used for monitoring personnel and/or objects through safety protection equipment arranged in each unit in the park; when the abnormal condition is monitored, calling a preset early warning instruction to perform automatic early warning;

the park property management module is used for pushing corresponding on-line intelligent management service information to each unit in the park according to the property business information of each unit in the park;

In specific implementation, the System configuration module mainly relates to application authority, personalized service, user classification and the like of the smart park management System, and comprises a GIS (Geographic Information System) configuration sub-module, a personalized report configuration sub-module, a log configuration sub-module, an authority configuration sub-module and a user configuration sub-module. The GIS configuration submodule combines GIS to the intelligent park management system to provide the functions of park location, peripheral geographic environment, street layout and the like. The personalized report configuration submodule indicates that after a printing plate type is set in the intelligent park management system, a user can place a report to be printed into a printing template in an inquiring and dragging mode. And the log configuration submodule can provide a function of inquiring the operation log of the intelligent park management system in the set time according to the time period. The authority configuration submodule comprises administrator authority configuration and operator authority configuration, wherein the administrator authority configuration is configured with functions of viewing all analysis and monitoring contents of the intelligent park management system and adding or modifying system login accounts and passwords, and the operator authority configuration is only configured with functions of viewing all analysis and monitoring contents of the park, cannot modify background management authorities, cannot change login accounts and password information and the like. And the user configuration submodule is used for configuring that only user-defined parts, such as editing functions of equipment positions, equipment names and the like, can be modified after each account logs in the system, the modified parts are stored under the account, and information of other accounts cannot be modified.

The safety protection management and control module specifically comprises an intrusion alarm submodule, an electronic patrol submodule, an elevator five-party talkback submodule, a video monitoring submodule, an out-of-range identification submodule and an entrance guard and gate submodule, wherein the intrusion alarm submodule is used for accurately detecting and tracking personnel by using a machine vision image perception technology according to video monitoring and by using a deep learning algorithm, so that the human body is monitored, analyzed and identified, and then the alarm is given to people entering a restricted area. And the electronic patrol submodule is used for recording the patrol route of the patrol personnel and recording the personnel information of the uncompleted patrol route through the patrol distribution sensing device. And the elevator five-party talkback submodule is used for monitoring the five-party talkback communication state on line in real time, and sending an alarm signal if the communication state cannot be monitored. And the video monitoring submodule is used for carrying out online monitoring on each area of the park through monitoring equipment such as a spherical camera and the like. And the border crossing identification submodule is used for monitoring video monitoring by adopting a machine vision image perception technology after an electronic red line is set in a dangerous area, and sending an alarm signal when people cross the electronic red line. The entrance guard and gate submodule is used for recognizing a face through a cloud face Recognition technology when people enter and exit the gate, and recording a license plate number by utilizing an OCR (Optical Character Recognition) algorithm according to a license plate image when a vehicle enters and exits, so that the entrance guard and gate submodule effectively records and controls the entrance and exit of related people and vehicles and carries out standardized management on the people and the vehicles entering and exiting the park.

Garden property management module includes: the system comprises a parking management and vehicle guidance submodule, a public equipment operation and maintenance management submodule, a payment management submodule and an on-line bill raising submodule. The parking management and vehicle guidance submodule is used for monitoring the state of an empty parking space on line through the parking space intelligent detection sensing terminal, displaying the number of the empty parking space on the entrance display board when a vehicle enters a park area, and guiding the vehicle to park by using the electronic indicating board. And the public equipment operation and maintenance management submodule is used for automatically generating a work order for the abnormally operated equipment according to the state sensing result of the park equipment, sending an alarm and reminding operation and maintenance personnel. And the payment management submodule is used for receiving a state change request sent by the financial system after the system is connected with the own financial system of the park, changing account information of the user and inquiring the balance of the electric charge, the water charge and the gas charge by the user after the user pays the fee. And the online bill raising submodule enables users to submit questions in the system according to respective requirements, and operation and maintenance personnel or customer service personnel can receive bills and solve or perform offline operation and maintenance.

Convenient management module in garden includes: the system comprises a multimedia conference submodule, an all-purpose card submodule, an asset electronic management submodule and a multi-table-in-one and fee control management submodule; the multimedia conference submodule is used for monitoring whether the communication state of each conference room video terminal is in a networking state or not. And the all-purpose card submodule is used for recording the card swiping time and position of each id card and realizing the standardized management of the park. And the asset electronic management submodule is used for carrying out system record on the resources of the park, for example, carrying out record registration on the system when equipment enters or leaves a warehouse. The multi-meter integrated and fee control management submodule is used for carrying out fee control management on electricity, water and gas of a park, the fee control management of the electricity meters is realized by using fee control electricity meters, and the fee control electricity meters are communicated with a system in a mode of converting power line carriers into wireless electricity. The system collects the water meter and gas meter usage data, and also adopts a power line carrier to wireless communication with the system, and the system charges on line after collecting the water meter and gas meter usage information, and sends instructions to the water meter and the gas meter through the system to cut off water supply and gas supply when defaulting.

In this embodiment, use the authority to wisdom garden management system through system configuration module, personalized service and user classification etc. configure, so that the better application wisdom garden management system of all kinds of personnel, improve user's use and experience, manage and control the garden through safety protection management and control module, can improve the security in garden, the personal and the property safety of each unit in the guarantee garden, through the convenient management module in garden property management module and the garden can be better provide relevant service for each unit.

In one embodiment, the system further comprises: the system comprises a data interaction module and a message pushing module, wherein the data interaction module is used for being connected with other systems in the park, acquiring corresponding data from the other systems, and sending the data to the message pushing module and the park convenient management module so as to be called by the message pushing module and the park convenient management module; and the message pushing module is used for pushing energy consumption characteristic information of the energy type basic equipment of each unit in the park energy consumption analysis module, energy-saving control information of the energy type basic equipment of each unit in the park energy consumption adjustment module, monitoring information of the safety protection management module, data information of the data interaction module, data information of the park property management module and data information of the park convenient management module to the display terminal in a plurality of preset message pushing modes.

In specific implementation, the data interaction module can provide access to other systems in various protocols and communication modes to meet the interaction requirements of data access to other systems in a park, can provide a data integration function based on various modes such as a database and a message queue, and provides a configuration function of data interaction timing trigger and event trigger to realize data interaction automation. The message pushing module can realize multi-channel pushing of messages, for example, pushing through channels such as voice, short messages, weChat, laser pushing, mail pushing, warning device pushing, in-station pushing and the like, and supports message template management and message pushing mode management, wherein the message pushing mode comprises modes such as instant, timing and periodic modes.

In this embodiment, provide multiple agreement and multiple communication mode through the data interaction module to in the wisdom garden management system docks with other business systems, thereby, improve the managerial efficiency of wisdom garden managers to the garden, carry out the information propelling movement of multichannel through message propelling movement module, make relevant personnel in time know the message relevant with it, in time handle.

Further, in one embodiment, as shown in FIG. 2, a graph of the relationship between the modules of the intelligent campus management system is provided. The basic equipment management module provides equipment information of energy basic equipment of each unit for the energy monitoring module for the park and provides equipment information of communication basic equipment of each unit for the communication network construction module. The energy consumption analysis module is used to the garden and is provided the energy data of the energy type basic unit of each unit for the energy consumption analysis module in garden, and the energy consumption characteristic information of the energy type basic unit that each unit was provided for the energy consumption adjustment module in garden, in addition, the energy consumption analysis module is used to the energy consumption monitoring module in garden and the energy consumption analysis module in garden still provides the print data source for the system configuration module. The data interaction module docks with other systems in garden, acquires the data of other systems, provides convenient management module and message propelling movement module, for example, if the financial system in data interaction module butt joint garden, then can acquire data such as the water and electricity gas table payment information and the balance information of financial system, sends for convenient management module. The information pushing module can push energy consumption characteristic information of energy type basic equipment of each unit of the park energy consumption analysis module, energy saving control information of the energy type basic equipment of each unit of the park energy consumption adjustment module, image recognition results of the safety protection management and control module, monitoring results such as automatic early warning and the like, data information such as water, electricity and gas meter payment information and balance information of the data interaction module, information such as project order prompt of the park property management module and data information such as meeting invitation, water, electricity and gas payment notification and asset stock of the park convenient management module.

In one embodiment, the intelligent campus management system may further include a campus status sensing module, which includes: the system comprises an environment perception submodule, a power quality perception submodule and an equipment state perception submodule. The environment perception submodule is used for collecting the ambient temperature, the humidity, the wind speed and the illumination of each area of the park. And the electric energy quality perception submodule is used for analyzing the electric energy quality at important load nodes of the park by using an electric energy quality analyzer, uploading electric energy quality data (harmonic waves, overvoltage, voltage flicker and the like) to the cloud platform, and giving a warning to the nodes with abnormal electric energy quality. And the equipment state perception submodule is used for acquiring indexes such as the jitter frequency, the operating temperature and abnormal noise of the equipment in the park and determining whether the working condition of the park equipment is normal or not according to the safe working range of each equipment index. Further, as shown in fig. 3, a functional architecture diagram of each module of the intelligent park management system is provided, which includes: park energy monitoring (be the garden with ability monitoring module), park state perception, the analysis of energy is used in the garden, formulate with the ability strategy (be equivalent to the garden with ability adjustment module), system intelligent configuration (be equivalent to system configuration module), communication network construction module, safety protection management and control, convenient management and park property management, every module has corresponding information respectively, realizes different functions to can realize the comprehensive management and control to wisdom garden management system.

In one embodiment, as shown in fig. 4, the system architecture of the intelligent campus management system is schematically illustrated, the data interaction process between the modules can be implemented by a data acquisition device, a data transmission device, a data aggregation device, and a data storage device, for example, the basic device management module acquires device information of the energy-based basic device and the communication-based basic device of each unit in the campus through the data acquisition device, sends the device information of the energy-based basic device to the campus energy consumption monitoring module through the data transmission device, and sends the device information of the communication-based basic device to the communication network construction module. The park energy consumption monitoring module can access the sensors corresponding to the energy type basic equipment of each unit through the data collecting device, acquire the energy data collected by the sensors, and send the energy data of the energy type basic equipment of each unit to the park energy consumption analyzing module through the data transmission device. The park energy consumption analysis module can send the energy consumption characteristic information of the energy basic equipment of each unit to the park energy consumption adjustment module through the data transmission device. And the park energy consumption analysis module and the park energy consumption monitoring module can upload the relevant data of the energy basic equipment of each unit to the cloud platform through the data collection device, and then display the data on the comprehensive display interface, or the comprehensive display interface accesses the data from the cloud platform according to the corresponding authority and locally displays the data.

Preferably, the data acquisition device can be used for acquiring the operation data of basic equipment of each unit of the park, the environment data of the park, the event data in the park and the like. Wherein, gather the operational data of the basic equipment of each unit in garden, include: the method comprises the following steps of collecting data such as single-phase current, temperature and charged state of a low-voltage branch loop through a low-voltage load monitoring concentrator (micro-sensing), and uploading the collected data in combination with wireless communication; detecting an electromagnetic wave signal excited by local discharge current in the equipment through an ultrahigh frequency local discharge sensor, reflecting the type and the general position of local discharge in the equipment, and determining the size and the strength of a terminal of the local discharge; the parameters of current, voltage, temperature, internal resistance, capacity and the like of each storage battery are monitored through a direct-current storage battery data acquisition terminal, and the vibration frequency of the equipment and the like are monitored through a vibration frequency acquisition device. Environmental data of a campus is collected, including: the temperature and humidity data are acquired by an environment temperature and humidity sensor, and are converted into current signals or voltage signals which are in linear relation with the temperature and humidity after being processed by circuits such as voltage stabilization filtering, operational amplification, nonlinear correction, V/I conversion, constant current and reverse protection and the like, and the current signals or the voltage signals are output, and can also be directly output through interfaces such as 485 or 232 by a main control chip; monitoring the water immersion state of the power distribution room in real time on line through a water immersion sensor, and transmitting the water immersion state to an intelligent gateway in a wired or wireless way; measuring the smoke concentration of the park through a smoke sensor, and converting data into signals to be uploaded; and acquiring the meteorological data and the like of the park through a meteorological data acquisition device. Collecting event data in a campus, comprising: unusual personnel come in and go out through face identification technology control, through entrance guard and video cloud node control unusual vehicle, arrange the terminal through the electron and carry out record etc. to personnel time of punching the card, the data of gathering can be confirmed according to the monitoring to garden equipment running state and data analysis's demand.

The basic equipment of each unit in the park has two data access modes, one mode is that data can be accessed from the established monitoring system to the stock equipment, and at the moment, the data acquisition device needs to be matched with the interface of the established monitoring system. And in the other situation that no related monitoring system exists, the influence of economy, transmission distance and the like can be comprehensively considered, and an intelligent sensing terminal is additionally arranged to collect the operation data of the basic equipment. Data security does not need to be considered for data acquisition by adopting a mode of additionally installing an intelligent sensing terminal, and information security protection measures, such as additionally installing a firewall, need to be taken according to actual conditions when the built monitoring system accesses data.

Preferably, the data transmission device is used for uploading data acquired by the data acquisition device to the data aggregation device, where the data transmission device may be an optical fiber or RS485, the transmission protocol may be modbus (a serial communication protocol), goose (a fast message transmission mechanism), and the like, the data transmission device may be determined according to data acquired by the data acquisition device and the data acquisition device, specifically, the data transmission device needs to be consistent with an interface of the data acquisition device, a communication mode and a communication protocol of the data transmission device are consistent with a type of data acquired by the data acquisition device, and a common communication mode of the data transmission device includes two types, namely, wired communication and wireless communication (such as LoRa (remote radio technology), NB-IOT (narrow band internet of things)). For example: for the collected photovoltaic panel temperature data, an internal wireless special 4G network established by an enterprise can be adopted, the data are uploaded to a base station in a wireless communication mode and finally uploaded to a cloud platform, and due to the fact that engineering problems such as construction and wiring are prone to occurring when optical fibers or network cables transmit data in a long distance, the problem can be effectively solved by adopting the data uploading mode of the wireless special network. For the collected security monitoring video data, a transmission mode using an optical fiber as a channel can be adopted for data uploading, and the data uploading mode mainly aims at the condition that the data volume is large or an interface has a certain requirement, so that the accuracy and the transmission speed of the data can be effectively improved.

Preferably, the data collection device is connected with various sensor devices to acquire data such as device running states, environment security monitoring and electrical quantity monitoring acquired by various sensors, and supports users to perform secondary application development according to actual service requirements and support multi-protocol expansion. The data collection device can receive data of different protocols, convert the data into a unified format (for example, a JSON format (a lightweight data exchange format)) according to interface requirements of the enterprise cloud platform, and upload the data to the cloud platform. The data collecting device is also used for collecting data transmitted by the data transmission device, wherein the common data collecting device is provided with an intelligent gateway, and the protocols adopted by the intelligent gateway for uploading data are HTTP (hyper text transfer protocol) and MQTT (message queue telemetry transport protocol) and the like generally. The data aggregation device further has the functions of edge computing and container, can receive a cloud platform linkage strategy to perform local linkage control on the terminal equipment and upload data to the cloud platform, can receive instructions of the cloud platform to achieve remote control on the terminal equipment, and is required to reserve sufficient expansion capacity and interfaces and has a routing exchange function.

Preferably, the data storage device is used for storing data, a common data storage device is a storage unit server, the storage unit server is used for storing data with large capacity, data transmission flow can be reduced, important historical data can be stored conveniently and quickly, the data storage device mainly stores data with large capacity or important data or permanent data, and temporary data can be stored and erased by a user. The data of the data storage device can directly come from the data transmission device or come from the data aggregation device. The capacity of the data storage device can be determined according to the size of the access data volume, the data storage time and the like, and the data storage is carried out through the data storage device, so that the data are ensured not to be lost, and the subsequent data query is facilitated.

Furthermore, the selection of the data transmission device also needs to comprehensively consider the problems of signal attenuation degree, signal stability, transmission economy and the like, and the data transmission device is respectively matched with the communication interfaces of the data acquisition device and the data collection device; the data collection device uploads data to the cloud platform, and the requirement of a private network interface inside an enterprise needs to be met, for example, the requirement of Ethernet or wireless network coverage is met.

The cloud platform has data storage and computing analysis functions, and common computing models and components can be deployed on the cloud platform, for example: the intelligent park management system can also be deployed on the cloud platform, so that the remote access of users is facilitated, and the cloud platform can also be interconnected with other systems. Because the access terminal of the cloud platform has large data volume and large access amount, in order to reduce the computing pressure of the cloud platform, the data acquisition device can actively preprocess the acquired data and then upload the preprocessed data to the cloud platform, or the cloud platform issues an instruction to control the intelligent terminal to preprocess the data, and the cloud-edge fusion of edge computing and cloud computing can make the resource utilization more reasonable. Further, the capacity configuration of the cloud platform can be comprehensively determined according to the capacity of the access data, the capacity of the park system, the capacity required by advanced complex computing, the system access concurrency amount, the disaster recovery capacity and other factors.

In practical application, the cloud platform can be developed and established by an enterprise and deployed on an internal server of the enterprise, the internal network of the enterprise can be conveniently accessed at any time in a data access mode of the cloud platform, managers can conveniently know the operation state of the park, and the park is conveniently managed.

Further, the smart park management system further comprises system components such as a high-level application function module, a database and middleware, the high-level application function module of the park system can directly call modules and components of artificial intelligence, machine learning and deep learning from a cloud platform, and high-level analysis and application are carried out on data of the park. In addition, the smart park management system adopts a cloud deployment mode, statistics, analysis and calculation are carried out on collected data, a functional module is formed, the application value of the data is effectively improved, and a comprehensive display interface is convenient to access the data by providing an access interface.

The wisdom garden management system that this embodiment provided, through gathering the important core data of each unit in garden, the monitoring with concentrate the show, and with the data storage who gathers at cloud platform, support numerous user remote access garden developments that have the authority, make full system support, intelligent cooperation, visual monitoring's business operational environment, with big data assistance operation management and decision-making analysis, the ability that the formation lasts optimization promotion improves the management level in garden, for the garden is cast just in one set of superstrong soft strength. Moreover, the acquired data are uploaded to the cloud platform, so that the operation condition of the park can be conveniently monitored at any place with an internal network of an enterprise at any time, and the management efficiency of the park is improved; and advanced application function module in the smart park management system can directly call modules and components of artificial intelligence, machine learning and deep learning from the cloud platform, and reusability of the modules and components of artificial intelligence, machine learning and deep learning is effectively improved, so that computing resources are effectively saved.

In an embodiment, as shown in fig. 5, for a schematic diagram of data security measures when the smart park management system performs information interaction with an external system, the smart park management system of the present application is deployed on a cloud platform, and a service application front end can directly access the smart park management system to visually display an operation state and a related analysis result of equipment in the smart park management system. Wherein, the control area data in the electric power monitored control system production control district is not gathered to the data acquisition device of this application, and only gathers the electric quantity data in the non-control area in production control district through marketing transaction system, and, in order to guarantee electric power monitored control system's safety, when uploading the electric quantity data that marketing transaction system gathered to garden integrated management system, need install forward isolating device additional, the side can upload electric power marketing system data to wisdom garden management system, otherwise upload and will be blocked. The front-end server 1 and the front-end server 2 are both data acquisition servers, and the front-end server 1 is used for caching data, mutually converting a communication protocol, a data format or a language and providing service and calculation for the outside; and the front-end server 2 is used for caching data, analyzing the data and the like, and providing services and calculation for the outside. In addition, when the intelligent park management system is in butt joint with other business systems (such as financial systems) of the park, data of the business systems can be uploaded to the intelligent park management system after being checked by a firewall.

In one embodiment, the basic device management module, the park energy consumption monitoring module, the park energy consumption analysis module, the park energy consumption adjustment module, the system configuration module, the communication network construction module, the security protection management and control module, the data interaction module, the park property management module, the park convenience management module and the message push module are all deployed by adopting a micro-service architecture, and provide services to the outside through the application program interface gateway.

In specific implementation, each module can be obtained by dividing according to business requirements, the smart park management system adopts a micro-service architecture, wherein each module can represent a micro-service, as shown in fig. 6, the micro-service architecture diagram of the smart park management system is provided, a business Application front end comprises multiple modes such as a micro-messaging applet, a mobile app, a web page and the like, each micro-service can call models and components with complex computation, such as artificial intelligence, machine learning or deep flow control learning and the like, and provides services to the outside through an Application Programming Interface (API) gateway, and the API provides management functions such as safety, filtering, caching, charging, monitoring and the like.

In the embodiment, the coupling degree between the client and the back end is reduced by calling the API gateway, and the API aggregates the background service, so that the flow is saved, the performance is improved, and the user experience can be improved. In addition, wisdom garden management system adopts the microservice framework to develop, wisdom garden management system's compatibility, portability and expansibility has effectively been improved, the garden system can become one set of system by oneself, also can extract some microservices as the module of other application system, also can integrate the functional module of other systems, make information communication between each module can, follow-up further richened and perfect functional module according to the actual business demand in garden in the use, for example, when needs expand microservices, only need add microservice functional module, and provide and call the interface, make logical connection can.

In one embodiment, as shown in fig. 7, there is provided an intelligent campus management method, including the steps of:

step S702, collecting equipment information of energy basic equipment of each unit in the park;

step S704, acquiring energy data acquired by a sensor corresponding to the energy basic equipment of each unit according to the equipment information of the energy basic equipment of each unit;

step S706, determining energy consumption characteristic information of the energy type basic equipment of each unit according to the energy data of the energy type basic equipment of each unit;

step 708, acquiring energy-saving control information corresponding to the energy consumption characteristic information of the energy basic devices of each unit, as energy-saving control information of the energy basic devices of each unit; and controlling the operation of the energy type basic equipment of each unit according to the energy saving control information of the energy type basic equipment of each unit.

In the embodiment, the energy-saving control information of each energy type basic device is obtained by collecting the energy information data of each unit, collecting and integrating the data of each unit, and performing unified analysis, so that the information intercommunication among the units is realized, and the energy management quality and efficiency in the park can be effectively improved, thereby solving the technical problem that the energy of each unit in the park is difficult to be comprehensively managed.

It should be understood that, although the steps in the flowchart of fig. 7 are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not limited to being performed in the exact order illustrated and, unless explicitly stated herein, may be performed in other orders. Moreover, at least a portion of the steps in fig. 7 may include multiple sub-steps or multiple stages that are not necessarily performed at the same time, but may be performed at different times, and the order of performance of the sub-steps or stages is not necessarily sequential, but may be performed in turn or alternately with other steps or at least a portion of the sub-steps or stages of other steps.

In one embodiment, as shown in fig. 8, there is provided an intelligent park management apparatus including: an equipment information acquisition module 802, an energy data acquisition module 804, an energy consumption characteristic information determination module 806, and an energy saving control information acquisition module 808, wherein:

the equipment information acquisition module 802 is used for acquiring the equipment information of the energy basic equipment of each unit in the park;

the energy data acquisition module 804 is configured to acquire energy data acquired by a sensor corresponding to the energy-based basic device of each unit according to the device information of the energy-based basic device of each unit;

the energy consumption characteristic information determining module 806 is configured to determine energy consumption characteristic information of the energy class basic device of each unit according to the energy data of the energy class basic device of each unit;

an energy-saving control information obtaining module 808, configured to obtain energy-saving control information corresponding to the energy consumption characteristic information of the energy-based basic device of each unit, as energy-saving control information of the energy-based basic device of each unit; and controlling the operation of the energy type basic equipment of each unit according to the energy saving control information of the energy type basic equipment of each unit.

It should be noted that, the smart park management apparatus of the present application corresponds to the smart park management method of the present application one to one, and the technical features and the advantages thereof described in the embodiments of the smart park management method are all applicable to the embodiments of the smart park management apparatus.

In addition, each module in the above-described intelligent campus management device may be wholly or partially implemented by software, hardware, or a combination thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

In one embodiment, a computer device is provided, which may be a terminal, and its internal structure diagram may be as shown in fig. 9. The computer device includes a processor, a memory, a communication interface, a display screen, and an input device connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system and a computer program. The internal memory provides an environment for the operating system and the computer program to run on the non-volatile storage medium. The communication interface of the computer device is used for communicating with an external terminal in a wired or wireless manner, and the wireless manner can be realized through WIFI, an operator network, NFC (near field communication) or other technologies. The computer program is executed by a processor to implement a method of intelligent campus management. The display screen of the computer equipment can be a liquid crystal display screen or an electronic ink display screen, and the input device of the computer equipment can be a touch layer covered on the display screen, a key, a track ball or a touch pad arranged on the shell of the computer equipment, an external keyboard, a touch pad or a mouse and the like.

It will be appreciated by those skilled in the art that the configuration shown in fig. 9 is a block diagram of only a portion of the configuration associated with the present application, and is not intended to limit the computing device to which the present application may be applied, and that a particular computing device may include more or fewer components than shown, or may combine certain components, or have a different arrangement of components.

In an embodiment, there is also provided a computer device comprising a memory and a processor, the memory having stored therein a computer program, the processor implementing the steps of the above method embodiments when executing the computer program.

In an embodiment, a computer-readable storage medium is provided, on which a computer program is stored which, when being executed by a processor, carries out the steps of the above-mentioned method embodiments.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware instructions of a computer program, which can be stored in a non-volatile computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. Any reference to memory, storage, database or other medium used in the embodiments provided herein can include at least one of non-volatile and volatile memory. Non-volatile Memory may include Read-Only Memory (ROM), magnetic tape, floppy disk, flash Memory, optical storage, or the like. Volatile Memory can include Random Access Memory (RAM) or external cache Memory. By way of illustration and not limitation, RAM can take many forms, such as Static Random Access Memory (SRAM) or Dynamic Random Access Memory (DRAM), among others.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is specific and detailed, but not to be understood as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. An intelligent park management system, the system comprising: a basic equipment management module, a garden energy consumption monitoring module, a garden energy consumption analysis module and a garden energy consumption adjusting module, wherein,

the park energy utilization adjusting module is used for acquiring energy-saving control information corresponding to the energy consumption characteristic information of the energy-type basic equipment of each unit as the energy-saving control information of the energy-type basic equipment of each unit; and controlling the operation of the energy type basic equipment of each unit according to the energy saving control information of the energy type basic equipment of each unit.

2. The system according to claim 1, wherein the campus energy consumption monitoring module is further configured to invoke a preset fault detection instruction according to the energy data of the energy infrastructure of each unit, so as to perform fault detection on the energy infrastructure of each unit in the campus; and calling a preset abnormity early warning instruction to carry out abnormity early warning when the abnormity of the energy basic equipment is detected.

3. The system of claim 1, further comprising: a communication network construction module;

the basic equipment management module is also used for acquiring the equipment information of the communication basic equipment of each unit in the park and sending the equipment information of the communication basic equipment of each unit to the communication network construction module;

4. The system according to claim 3, wherein the reference device management module is further configured to establish a basic information ledger of the energy basic devices and the communication basic devices of each unit, dynamically configure attributes and relationships of the energy basic devices and the communication basic devices according to the basic information ledger, and construct a three-dimensional visual map corresponding to the energy basic devices and the communication basic devices according to device information of the energy basic devices and device information of the communication basic devices.

5. The system of claim 1, further comprising: a system configuration module, a safety protection management and control module, a park property management module and a park convenient management module, wherein,

and the park convenient management module is used for pushing corresponding personalized service information to each unit in the park, and controlling the intelligent terminals in each unit through the terminal information of the intelligent terminals in each unit so as to realize the convenient management of the park.

6. The system of claim 5, further comprising: a data interaction module and a message pushing module, wherein,

the information pushing module is used for pushing energy consumption characteristic information of the energy type basic equipment of each unit in the park energy consumption analysis module, energy saving control information of the energy type basic equipment of each unit in the park energy consumption adjustment module, monitoring information of the safety protection management and control module, data information of the data interaction module, data information of the park property management module and data information of the park convenient management module to a display terminal in a plurality of preset information pushing modes.

7. The system according to any one of claims 1 to 6, wherein the infrastructure management module, the campus energy consumption monitoring module, the campus energy consumption analysis module, the campus energy consumption adjustment module, the system configuration module, the communication network construction module, the security protection management and control module, the data interaction module, the campus property management module, the campus convenience management module, and the message push module are deployed by using a micro-service architecture, and provide services to the outside through an application program interface gateway.

8. A method for managing an intelligent park, the method comprising:

9. A computer arrangement comprising a memory and a processor, the memory storing a computer program, characterized in that the processor realizes the steps of the method as claimed in claim 8 when executing the computer program.

10. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method as claimed in claim 8.