TW202044182A - Smart electric energy management system and method thereof with App service interface opened on the screen of the mobile electronic device to display the power consumption information of the equipment in the field - Google Patents

Abstract

The present invention is a smart electric energy management system and method thereof, which is applied in a field smart automatic energy-saving management environment. When the smart electric energy management system of the present invention is used to implement a smart electric energy management method, first, a service start action is performed. More than one user uses a mobile electronic device to scan the QR Code through the App screen to enter the field served by the smart power management system; furthermore, an information display action is performed, the App service interface opened on the screen of the mobile electronic device will display the power consumption information of the equipment in the field, and/or display the power source information of the field and its usage/energy saving condition, and/or more than one user is allowed to manage the usage condition/energy-saving goals of electric energy usage information within a certain period of time; then, an analysis action is performed to analyze the daily behavior of the more than one user in the field to learn the user's daily usage condition in the field, so that the one or more users can understand their power usage condition in order to save energy.

Description

Intelligent electric energy management system and method

The present invention relates to an electric energy management system and its method. More specifically, it relates to an intelligent electric energy management system and its method applied to a field intelligent automated energy-saving management environment, which is applied to field intelligent automated energy-saving management In the environment, the daily usage status of users in the field is known, so that more than one user can understand their power usage status in order to save energy.

Green energy is an important topic recently, especially when the Taiwan authorities announced that Taiwan is seeking an energy proposal without nuclear energy. The latest power reform policy issued by the Taiwan Energy Administration in July 2016 has opened up new developments in green energy. In the future, there will be more green power industries in the supply chain, maintenance generators, and other related supporting companies, and create their own Energy planning will be easier and more supportive than ever. However, there is still room for improvement in the management of municipal or solar power sources.

In terms of Internet of Things (IoT) power management, it allows users to assess current conditions and interact immediately. Through the smart electric energy and smart grid connected to the smart home, it can be switched from different locations and different energy supplies (for example, solar energy, wind energy, etc.), and can provide users with stable electricity. The interaction between the user and the device can also generate and reduce the power consumption of the location. However, the user’s concept of power consumption is the amount of electricity bills for the monthly use of electrical energy, but for the electrical energy of the equipment used Consumption still does not have a specific concept, let alone the ability to manage equipment power consumption and the energy-saving data on which it is based.

Taiwan Public/Announcement No. I560966 "Smart Grid Management System and Method" discloses a smart grid management system and method, which includes at least one feeder controller, which is installed between the secondary substation and at least one transmission feeder and bears two Substation power supply and control commands, and pre-store and set the digital code data of each transmission feeder, smart meter at the user end, electrical load and priority power-off level, etc. The multiple smart meters are connected to the distribution line of each user end and at least one Between the power feeders, the smart meter and the feeder controller use Power Line Communication protocol to transmit the load on and off control signals and load status detection feedback signals on the client side, and multiple smart load sockets Connected between the socket power line of the user-side distribution line and the load of each household appliance, the feeder controller controls the pairs of smart load sockets through the smart meter and the power line communication protocol according to the overall power demand status of the grid and the priority power-off level. The connected home appliance load is managed for power supply or power failure.

Taiwan Public/Announcement No. I446675 "Power Monitoring System and Power Monitoring Method for Identifying the Status of Electrical Appliances" discloses a power monitoring system and power monitoring method for identifying the status of electrical appliances based on user participation and feedback. The power monitoring system includes a first power monitoring device and at least one second power monitoring device. The first and second power monitoring devices respectively measure the power consumption characteristics of the first power source and the second power source to detect the first change and the second change. The second power source is a branch of the first power source. These power monitoring devices perform a hierarchical construction step to learn their relative positions, and synchronize the first change and the second change to calculate the first electrical change. When detecting the change of the first electrical appliance, the first power monitoring device searches the electrical appliance characteristic database according to the change of the first electrical appliance to obtain and monitor the state of the first electrical appliance similar to the change of the first electrical appliance.

Taiwan Public/Announcement No. I423549 "Power Monitoring Device for Recognizing the State of Electrical Appliances and Its Power Monitoring Method" is to disclose a power monitoring device for recognizing the state of electrical appliances and its power monitoring method. The power monitoring device includes measurement modules and change detection and search Module. The measurement module measures the power consumption characteristics of the power supply, and the change detection and search module detects and calculates the changes in the power consumption characteristics. When a change is detected, the change detection and search module searches the electrical appliance characteristic database based on the change to obtain the electrical appliance and its electrical state corresponding to the change. The power monitoring device records the status of the electrical appliance and records its power consumption based on the electrical change data generated by the change detection and search module, and compares the electrical characteristics database to know that an electrical appliance is compared to other electrical appliances or has the same functions Whether other electrical appliances are operated efficiently to achieve energy saving effect.

Taiwan Public/Announcement No. M425452 "Smart Charging Station Power Regulation Management System" discloses a smart charging station power regulation management system, which includes an AC power supply total management module, a charge and discharge regulation control management module, at least One power storage module, at least one special charging device for power storage module, several DC charging devices and several AC charging devices. The AC power supply total power management module is connected to the mains feeder or the renewable energy feeder, and the charge and discharge adjustment Both the control management module and the dedicated charging device for the storage module are connected to the AC power supply total management module, the storage module is connected to the dedicated charging device for the storage module, and the DC charging device and the AC charging device are connected to the Charge and discharge regulation control management module and power storage module. This creation can avoid spikes in electricity consumption during the day due to increased charging demand.

Taiwan Public/Announcement No. 201345106 "Power Monitoring Device for Identifying the State of Electrical Appliances and Its Power Monitoring Method" is to disclose the use of induction generator systems equipped with one or more wing-ring propellers to generate power from fast-moving water currents. The various subsystems of the type or water flushing system. Many of the systems and subsystems illustrated and described herein are individually applicable to systems that use conventional generator drive systems and other power generation components. Also disclosed are components used to transmit the power generated by the system, mooring lines and mooring systems, and methods for improving system transportation, installation, and maintenance.

Taiwan Public/Announcement No. 201306422 "Energy-saving Power Distribution Device" discloses an energy-saving power distribution device, including AC/DC converters, DC power supply devices, DC/DC converters, converter filter devices and bypass devices. The AC/DC converter is connected to the mains, the DC/DC converter is connected to the DC power supply device, the commutation filter device is connected to the AC/DC converter and the DC/DC converter, and the bypass device is connected to the commutation filter device. Connected to the mains power grid, it has the advantages of simple structure, low cost, high efficiency of the whole machine, safe use and low power consumption.

Taiwan Public/Announcement No. 201223793 "Methods for controlling electric vehicle charging procedures, electric vehicle charging control systems, and electric vehicle charging systems" discloses an electric vehicle charging control system, including: a charging monitoring device coupled to the battery system of the electric vehicle; A processor is coupled to the charging monitoring device; and a communication interface is coupled to the processor. The charging monitoring device can sense a charging device to provide the charging status of the battery system. The processor can determine whether the charging status exceeds a tolerance standard of the charging monitoring device or the battery system. The communication interface can communicate with the charging monitoring device, a charging receiving device, and/or the charging device; the communication content refers to a charging command provided by the microprocessor based on the judgment of whether the charging status exceeds the tolerance standard At least one of and a charging instruction.

Taiwan Public/Announcement No. I645730 "Efficient Resource Allocation" reveals a situation, providing methods, computer-readable media, and devices. The device may be a wireless device. The wireless device determines the first RU subset of the resource element (RU) set that extends across the channel bandwidth in the transmission period. The first RU subset includes less than the RU set, and each RU in the RU set includes at least 26 A tone. The wireless device communicates at least one of data or control information in the first RU subset.

Taiwan Public/Announcement No. I639962 "A particle swarm optimization fuzzy logic control charging method applied to smart grid" is to disclose a particle swarm optimization fuzzy logic control (FLC) charging method, including: Yiyi present The battery power input attribution function performs a first fuzzification operation on a current battery power and performs a second fuzzification operation on a battery power variation input according to a battery power variation input attribution function, wherein the current battery power input attribution function The input attribution function of the battery power variation amount is determined in advance according to a particle swarm optimization (PSO); according to one of the first fuzzification results and one of the second fuzzification operations The second fuzzification result is mapped to a rule base to generate a third fuzzification result; a defuzzification operation is performed on the third fuzzification result according to an output attribute function to obtain a charging rate; and the charging rate is multiplied by A battery rated power determines a charging power command.

Taiwan Public/Announcement No. M561232 "Grid Management Components, Connectors Containing the Grid Management Components, and Grids Containing the Connectors" discloses a smart grid management component, connectors containing the grid management components, and grids containing this connector , The smart grid management component includes a measuring device for measuring the electrical changes of a power generating device or a power consuming device electrically connected to it; and a first signal transmitter, and the current measuring device or the The voltage measuring device is electrically connected, and sends out a normal or abnormal signal according to the electrical property measured by the measuring device, and the signal includes the component (ID) code of the power generating device or power consuming device to which it is connected .

However, looking at the above-mentioned conventional technologies, as far as the current smart power management is concerned, how to enable users to generate power consumption information connection and interaction with devices that use power, so as to enable users to have the concept of energy saving, and for power The consumption is no longer based on the amount of electricity bills for the monthly use of electricity, but has a specific concept of the power consumption of the equipment used, and has the ability to manage the power consumption of the equipment and the energy-saving data on which it is based; How to display the power consumption information of the equipment in the field where the user is located, and/or the power source information and the usage/energy saving status of the exhibition field, and/or allow the user to manage the power consumption within a certain period of time Electric energy usage information usage status/energy saving goals; Furthermore, how can we analyze all-day behaviors of users in the field to learn the daily usage status of users in the field so that users can understand their energy usage status in order to Energy saving; here, all the topics discussed above are issues to be resolved.

The main purpose of the present invention is to provide a smart power management system and method thereof, which are applied in the field of smart automated energy-saving management environment. When using the smart power management system of the present invention to perform smart power management methods, first, perform services To start the action, one or more users use the mobile electronic device to scan the QR Code through the App screen to enter the field served by the smart power management system; then, perform the information display action, which is displayed on the screen of the mobile electronic device The App service interface will display the power consumption information of the equipment in the field, and/or show the power source information of the field and its usage/energy saving status, and/or allow more than one user to manage The usage status/energy-saving goal of the electric energy usage information within a certain period of time; then, an analysis action is performed to analyze the behavior of the more than one user in the field throughout the day, and know that the user is in the field every day The usage status of, so that more than one user can understand the power usage status in order to save energy. In addition, the improvement of user behavior can be fully displayed through the trend chart, and the visualization can be understood through the presentation of the chart. Which equipment is used more frequently, and analyzes which types of equipment are used by more people and are more expensive.

Another object of the present invention is to provide a smart power management system and method thereof, which are applied in a field smart automated energy-saving management environment, which allows users to generate power consumption information connection and interaction with power-using equipment. In order to enable users to have the concept of energy saving, and the power consumption is no longer based on the amount of electricity bills for the monthly electricity consumption, but has a specific concept for the power consumption of the equipment used, and has the equipment power consumption The management capability and the energy-saving data on which it is based; in addition, it can display the power consumption information of the equipment in the field where the user is located, and/or the power source information of the exhibition field and its usage/energy saving status, and/or , Allowing users to manage the usage status/energy-saving goals of electric energy usage information within a certain period of time; in addition, it can analyze all-day behaviors of users in the field to know the daily usage status of users in the field. Allow users to understand their power usage in order to save energy.

Another object of the present invention is to provide an intelligent electric energy management system and method thereof, which are applied in the field of intelligent automatic energy-saving management environment, which can achieve energy-saving effects through the improvement of user behavior, so that users can better understand it. The use condition achieves the effect of self-willingness to improve.

According to the above-mentioned objective, the present invention provides a smart power management system, which includes an information processing module, an information receiving/transmitting module, and a database.

Information processing module. One or more users use mobile electronic devices to scan QR Code through the App screen to enter the field served by the smart power management system. Here, the information processing module cooperates with the information receiving/transmitting module, Display the information with the database, expand the App service interface on the screen of the mobile electronic device, and display it on the App service interface, which is received by the information receiving/transmitting module and sent to the field of the information processing module The power consumption information of the equipment, and/or the power source information of the field and its usage/energy saving status, and/or allow more than one user to manage the usage status of the power usage information within a certain period of time /Energy saving goals.

In addition, the information processing module can perform analysis actions to analyze the daily behavior of the more than one user in the field, and learn the daily usage status of the user in the field, so that more than one user can use The user can understand the power usage status for energy saving. In addition, the improvement of user behavior can be fully displayed through the trend graph, and through the visualization of the chart, we can understand which devices are used more frequently, and analyze it. Which type of equipment is used by more people and has higher consumption.

Information receiving/transmitting module, the information receiving/transmitting module will receive the power consumption information of the equipment in the field by more than one user, and/or the power source information of the field and its usage/energy saving Status, and/or, allow more than one user to manage the usage status/energy saving target of the electric energy usage information within a certain period of time, and send the received information to the information management module.

Database, which can store the power consumption information and/or power source information and usage/energy saving status received by the information receiving/transmitting module and/or the usage status/energy saving target of the power usage information; in addition, the data The library can store the user's daily usage status in the field and a trend graph, which can completely present the usage status.

When using the smart power management system of the present invention to perform the smart power management method process, first, perform the service start action. More than one user uses the mobile electronic device to scan the QR Code through the App screen to enter the service of the smart power management system The field.

Furthermore, the information display action is carried out, and the App service interface opened on the screen of the mobile electronic device will display the power consumption information of the equipment in the field, and/or display the power source information of the field and its usage /Energy-saving status, and/or, allow more than one user to manage the usage status/energy-saving goal of energy usage information within a certain period of time.

Then, perform analysis actions to analyze the behavior of the more than one user in the field throughout the day to learn the daily usage status of the user in the field, so that the more than one user can understand their Electricity usage in order to save energy. In addition, the improvement of user behavior can be fully displayed through the trend graph. Through the visualization of the chart, we can understand which equipment is used more frequently and analyze which type The equipment is used by more people and is more expensive.

In order to enable those skilled in the art to understand the purpose, features, and effects of the present invention, the following specific embodiments and accompanying drawings are used to explain the present invention in detail as follows:

Figure 1 is a schematic diagram showing the system architecture and operating conditions of the smart power management system of the present invention. As shown in Figure 1, the smart power management system 1 includes an information processing module 2, an information receiving/transmitting module 3, and a database 4; here, the information processing module 2 and/ of the smart power management system 1 Or the information receiving/transmitting module 3 and/or the database 4 can be located in a cloud system in a mobile electronic device and/or a cloud server, depending on the actual implementation, and the cloud system with cloud functions is a private cloud Established with Design Cloud.

Information processing module 2. More than one user uses a mobile electronic device to scan the QR Code through the App screen to enter the field served by the smart power management system 1. Here, the information processing module 2 cooperates with information reception/transmission Module 3 and database 4 perform information display. The App service interface is expanded on the screen of the mobile electronic device, and the App service interface will be displayed. The information receiving/transmitting module 3 receives and sends to the information processing module. Group 2’s power consumption information of the equipment in the field, and/or the power source information of the field and its usage/energy saving status, and/or let more than one user manage it for a certain period of time The usage status/energy saving target of the electricity usage information.

In addition, the information processing module 2 can perform analysis actions to analyze the daily behavior of the more than one user in the field, and learn the daily usage status of the user in the field, so that the more than one user Users can understand their electrical energy usage for energy saving. In addition, the improvement of user behavior can be fully displayed through the trend graph, and through the visualization of the chart, we can understand which devices are used more frequently, and analyze Which type of equipment is used by more people and is more expensive.

Information receiving/transmitting module 3, the information receiving/transmitting module 3 will receive the power consumption information of the equipment in the field by more than one user, and/or the power source information of the field and its usage /Energy-saving status, and/or, let more than one user manage the usage status/energy-saving goal of the electric energy usage information within a certain period of time, and send the received to the information management module 2.

Database 4, which can store the power consumption information and/or power source information and usage/energy-saving status and/or usage status/energy-saving goals of the power usage information received by the information receiving/transmitting module 3; The database 4 can store the daily usage status of the user in the field and a trend graph, which can completely present the usage status.

FIG. 2 is a flow chart showing the steps of the smart power management method using the smart power management system of the present invention as shown in FIG. 1. As shown in Figure 2, first, in step 101, perform the service start action; more than one user uses a mobile electronic device to scan the QR Code through the App screen to enter the field served by the smart power management system 1 , And go to step 102.

In step 102, perform an information display action; the information processing module 2 cooperates with the information receiving/transmitting module 3 and the database 4 to perform information display, expand the App service interface on the screen of the mobile electronic device, and display it on the App service interface , The power consumption information of the equipment in the field received by the information receiving/transmitting module 3 and transmitted to the information processing module 2, and/or the power source information of the field and its usage/energy saving Status, and/or allow the one or more users to manage the usage status/energy saving target of the electric energy usage information within a certain period of time, and proceed to step 103.

In step 103, an analysis action is performed; the information processing module 2 performs an all-day behavior analysis on the more than one user in the field, and learns the daily usage status of the user in the field, so that the more than one user Users can understand their power usage status for energy saving. In addition, the improvement of user behavior can be fully displayed through the trend graph, and through the visualization of the chart, you can understand which devices are used more frequently, and Analyze which type of equipment is used by more people and is more expensive.

FIG. 3 is a schematic diagram showing an embodiment of the intelligent power management system of the present invention and its operation status. As shown in Figure 3, the smart power management system 1 includes an information processing module 2, an information receiving/transmitting module 3, and a database 4; here, the smart power management system 1, information processing module 2, and information The receiving/transmitting module 3 and the database 4 are located in the mobile electronic device 5. Here, the mobile electronic device 5 can be, for example, a smart phone, a tablet computer, an iPhone, or an iPad.

Information processing module 2, more than one user 6 uses the mobile electronic device 5 to scan the QR Code through the App screen to enter the field 7 served by the smart power management system 1. Here, the information processing module 2 cooperates with the information The receiving/transmitting module 3 and the database 4 perform information display. The App service interface 510 is expanded on the screen 51 of the mobile electronic device 5, and the App service interface 510 will be displayed. The power consumption information 71 of the equipment in the field 7 from the cloud system 81 in the cloud server 8 received and sent to the information processing module 2 where the cloud system 81 has a cloud function is It is built with private cloud and design cloud.

In addition, the information processing module 2 can perform analysis actions to analyze the behavior of the more than one user 6 in the field 7 throughout the day, and learn the daily usage status of the user 6 in the field, so that the one More than users 6 can understand their power usage status to save energy. In addition, the improvement of user 6 behavior can be fully displayed through the trend graph, and through the visualization of the chart, you can understand which equipment is used frequently It is relatively high, and analyzes which type of equipment is used by more people and is more expensive.

Information receiving/transmitting module 3, the information receiving/transmitting module 3 will receive the power consumption of equipment in the field 7 from more than one user 6 from the cloud system 81 in the cloud server 8 via the network Information 71, and send the received information to the information management module 2.

Database 4, the database 4 can store the power consumption information 71 received by the information receiving/transmitting module 3; in addition, the database 4 can store the user’s daily usage status in the field and trend graphs, The trend chart can fully present the usage status.

In this embodiment, the smart power management system 1, the information processing module 2, the information receiving/transmitting module 3, and the database 4 are located in the mobile electronic device 5. However, for the information processing module of the smart power management system 1, For the cloud system 81 in which the group 2 and/or the information receiving/transmitting module 3 and/or the database 4 are located in the mobile electronic device 5 and/or the cloud server 8, the principles are the same, similar to those described in this embodiment That's why, so I won't repeat it here.

FIG. 4 is a flowchart for showing a process step of the smart power management method using the embodiment of the smart power management system of the present invention as shown in FIG. 3. As shown in Figure 4, first, in step 201, the service is started; more than one user 6 uses the mobile electronic device 5 to scan the QR Code through the App screen to enter the service of the smart power management system 1 Field 7, and proceed to step 202.

In step 202, perform an information display action; the information processing module 2 cooperates with the information receiving/transmitting module 3 and the database 4 to perform information display. The App service interface 510 is opened on the screen 51 of the mobile electronic device 5, and the App serves The interface 510 will display the power consumption information 71 of the equipment in the field 7 received by the information receiving/transmitting module 3 and transmitted to the information processing module 2, and proceed to step 203.

In step 203, an analysis action is performed; the information processing module 2 performs an all-day behavior analysis on the more than one user 6 in the field 7, and learns the daily usage status of the user 6 in the field 7, so that The more than one user 6 can understand their power usage status for energy saving. In addition, the improvement of user behavior can be fully presented through the trend graph, and the visual graph can be used to understand which equipment is used The frequency is relatively high, and it is analyzed which type of equipment is used by more people and is more expensive.

FIG. 5 is a schematic diagram showing another embodiment of the smart power management system of the present invention and its operation status. As shown in Figure 5, the smart power management system 1 includes an information processing module 2, an information receiving/transmitting module 3, and a database 4; here, the smart power management system 1, information processing module 2, and information The receiving/transmitting module 3 and the database 4 are located in the mobile electronic device 5. Here, the mobile electronic device 5 can be, for example, a smart phone, a tablet computer, an iPhone, or an iPad.

Information processing module 2, more than one user 6 uses the mobile electronic device 5 to scan the QR Code through the App screen to enter the field 7 served by the smart power management system 1. Here, the information processing module 2 cooperates with the information The receiving/transmitting module 3 and the database 4 perform information display. The App service interface 510 is expanded on the screen 51 of the mobile electronic device 5, and the App service interface 510 will be displayed. The power source information of the field 7 and its usage/energy saving status 72 from the cloud system 81 in the cloud server 8 received and sent to the information processing module 2 here, the cloud system 81 has The cloud function is established by private cloud and design cloud.

In addition, the information processing module 2 can perform analysis actions to analyze the behavior of the more than one user 6 in the field 7 throughout the day, and learn the daily usage status of the user 6 in the field, so that the one More than users 6 can understand their power usage status to save energy. In addition, the improvement of user 6 behavior can be fully displayed through the trend graph, and through the visualization of the chart, you can understand which equipment is used frequently It is relatively high, and analyzes which type of equipment is used by more people and is more expensive.

Information receiving/transmitting module 3, the information receiving/transmitting module 3 will receive the power source information of more than one user 6 in the field 7 from the cloud system 81 in the cloud server 8 via the network And its usage/energy saving status 72, and send the received to the information management module 2.

Database 4, the database 4 can store the power source information and usage/energy saving status 72 received by the information receiving/transmitting module 3; in addition, the database 4 can store the user’s daily usage in the field The status and trend chart, which can completely present the usage status.

In this embodiment, the smart power management system 1, the information processing module 2, the information receiving/transmitting module 3, and the database 4 are located in the mobile electronic device 5. However, for the information processing module of the smart power management system 1, For the cloud system 81 in which the group 2 and/or the information receiving/transmitting module 3 and/or the database 4 are located in the mobile electronic device 5 and/or the cloud server 8, the principles are the same, similar to those described in this embodiment That's why, so I won't repeat it here.

FIG. 6 is a flowchart showing another process step of the smart power management method using another embodiment of the smart power management system of the present invention as shown in FIG. 5. As shown in Figure 6, first, in step 301, perform the service start action; more than one user 6 uses the mobile electronic device 5 to scan the QR Code through the App screen to enter the service of the smart power management system 1 Field 7, and proceed to step 302.

In step 302, perform an information display action; the information processing module 2 cooperates with the information receiving/transmitting module 3 and the database 4 to perform information display. The App service interface 510 is opened on the screen 51 of the mobile electronic device 5, and the App serves The interface 510 will display the power source information of the field 7 received by the information receiving/transmitting module 3 and transmitted to the information processing module 2 and its usage/energy saving status 72, and proceed to step 303.

In step 303, an analysis action is performed; the information processing module 2 performs an all-day behavior analysis on the more than one user 6 in the field 7, and learns the daily usage status of the user 6 in the field 7, so that The more than one user 6 can understand their power usage status for energy saving. In addition, the improvement of user behavior can be fully presented through the trend graph, and the visual graph can be used to understand which equipment is used The frequency is relatively high, and it is analyzed which type of equipment is used by more people and is more expensive.

FIG. 7 is a schematic diagram showing another embodiment of the smart power management system of the present invention and its operation status. As shown in Figure 7, the smart power management system 1 includes an information processing module 2, an information receiving/transmitting module 3, and a database 4; here, the smart power management system 1, information processing module 2, and information The receiving/transmitting module 3 and the database 4 are located in the mobile electronic device 5. Here, the mobile electronic device 5 can be, for example, a smart phone, a tablet computer, an iPhone, or an iPad.

Information processing module 2, more than one user 6 uses the mobile electronic device 5 to scan the QR Code through the App screen to enter the field 7 served by the smart power management system 1. Here, the information processing module 2 cooperates with the information The receiving/transmitting module 3 and the database 4 perform information display. The App service interface 510 is expanded on the screen 51 of the mobile electronic device 5, and the App service interface 510 will be displayed. The usage status/energy saving target 73 of the cloud system 81 in the cloud server 8 received and sent to the information processing module 2 for the one or more users to manage the power usage information within a certain period of time, Here, the cloud system 81 has a cloud function and is built with a private cloud and a design cloud.

In addition, the information processing module 2 can perform analysis actions to analyze the behavior of the more than one user 6 in the field 7 throughout the day, and learn the daily usage status of the user 6 in the field, so that the one More than users 6 can understand their power usage status to save energy. In addition, the improvement of user 6 behavior can be fully displayed through the trend graph, and through the visualization of the chart, you can understand which equipment is used frequently It is relatively high, and analyzes which type of equipment is used by more people and is more expensive.

Information receiving/transmitting module 3, the information receiving/transmitting module 3 will receive from the cloud system 81 in the cloud server 8 via the network, so that more than one user 6 can manage the power usage within a certain period of time Information usage status/energy saving target 73, and send the received information to the information management module 2.

Database 4, the database 4 can store the usage status/energy saving target 73 of the electric energy usage information received by the information receiving/transmitting module 3; in addition, the database 4 can store the user’s daily usage in the field The status and trend chart, which can completely present the usage status.

In this embodiment, the smart power management system 1, the information processing module 2, the information receiving/transmitting module 3, and the database 4 are located in the mobile electronic device 5. However, for the information processing module of the smart power management system 1, For the cloud system 81 in which the group 2 and/or the information receiving/transmitting module 3 and/or the database 4 are located in the mobile electronic device 5 and/or the cloud server 8, the principles are the same, similar to those described in this embodiment That's why, so I won't repeat it here.

FIG. 8 is a flowchart for showing another process step of the smart power management method using another embodiment of the smart power management system of the present invention as shown in FIG. 7. As shown in Figure 8, first, in step 401, the service is initiated; more than one user 6 uses the mobile electronic device 5 to scan the QR Code through the App screen to enter the service of the smart power management system 1 Field 7, and proceed to step 402.

In step 402, perform an information display action; the information processing module 2 cooperates with the information receiving/transmitting module 3 and the database 4 to perform information display. The App service interface 510 is opened on the screen 51 of the mobile electronic device 5, and the App serves The interface 510 will display the usage status/energy saving goals of the information received by the information receiving/transmitting module 3 and transmitted to the information processing module 2 for the more than one user 6 to manage the energy usage information within a certain period of time 73, and go to step 403.

In step 403, an analysis action is performed; the information processing module 2 performs an all-day behavior analysis on the more than one user 6 in the field 7, and learns the daily usage status of the user 6 in the field 7, so that The more than one user 6 can understand their power usage status for energy saving. In addition, the improvement of user behavior can be fully presented through the trend graph, and the visual graph can be used to understand which equipment is used The frequency is relatively high, and it is analyzed which type of equipment is used by more people and is more expensive.

Based on the above embodiments, we can obtain a smart power management system and method of the present invention, which is applied in a field smart automated energy-saving management environment. When the smart power management system of the present invention is used to implement a smart power management method , First, perform the service start action. More than one user uses the mobile electronic device to scan the QR Code through the App screen to enter the field served by the smart power management system; then, perform the information display action on the mobile electronic device The App service interface opened on the screen will display the power consumption information of the equipment in the field, and/or show the power source information of the field and its usage/energy saving status, and/or let the person The above users manage the usage status/energy-saving goals of the electric energy usage information within a certain period of time; then, perform analysis actions, conduct a daily behavior analysis of the more than one user in the field, and know that the user every time The daily usage status of the field allows more than one user to understand the usage status of their electric energy in order to save energy. The intelligent electric energy management system and method of the present invention include the following advantages:

The App service interface launched on the screen of a mobile electronic device will display the power consumption information of the equipment in the field, and/or show the power source information of the field and its usage/energy saving status, and/or , Allowing the one or more users to manage the usage status/energy-saving goals of the energy usage information within a certain period of time; in addition, the entire day behavior analysis can be performed on the more than one user in the field to know the user The daily usage status of the field allows more than one user to understand the power usage status in order to save energy. In addition, the improvement of user behavior can be fully presented through the trend chart and the usage status can be visualized In the presentation of the chart, we can understand which devices are used more frequently, and analyze which types of devices are used by more people and are more expensive.

It allows users to generate power consumption information links and interactions with devices that use electrical energy, so that users can have the concept of energy saving, and the basis for electrical energy consumption is no longer the amount of electricity bills for using electrical energy each month. It has a specific concept of the power consumption of the equipment used, and has the ability to manage the power consumption of the equipment and the energy-saving data based on it; in addition, it can display the power consumption information of the equipment in the field where the user is located, and/or , The power source information of the exhibition site and its usage/energy saving status, and/or allow users to manage the usage status/energy saving goals of the electricity usage information within a certain period of time; Through daily behavior analysis, we know the daily usage status of users in the field, so that users can understand their power usage status in order to save energy.

A smart electric energy management system and method are provided, which are applied in a field intelligent automated energy-saving management environment, which can achieve energy-saving effects through the improvement of user behaviors, so that users can better understand their usage conditions and achieve self-willing improvement effects.

The above descriptions are only preferred embodiments of the present invention and are not intended to limit the scope of the present invention; all other equivalent changes or modifications made without departing from the spirit of the present invention should be included in the following patents Within range.

1: Smart power management system 2: Information processing module 3: Information receiving/transmitting module 4: Database 5: Mobile electronic devices 6: User 7: Field 8: Cloud server 51: Screen 71: Power consumption information of equipment 72: Power source information and usage/energy saving status of the site 73: Usage status of electric energy usage information/energy saving goals 81: Cloud system 101 102 103: Steps 201 203: Steps 301 302 303: Steps 401 402 403: Steps 510: App Service Interface

Figure 1 is a schematic diagram showing the system architecture and operation of the smart power management system of the present invention; Figure 2 is a flowchart showing the process steps of the smart power management method using the smart power management system of the present invention as shown in Figure 1; Figure 3 is a schematic diagram showing an embodiment of the smart power management system of the present invention, and operating conditions; Figure 4 is a flow chart for showing a process step of the smart power management method using the embodiment of the smart power management system of the present invention as shown in Figure 3; Figure 5 is a schematic diagram showing another embodiment of the intelligent power management system of the present invention, and operating conditions; Figure 6 is a flowchart showing another process step of the smart power management method using another embodiment of the smart power management system of the present invention as shown in Figure 5; Figure 7 is a schematic diagram for showing yet another embodiment of the smart power management system of the present invention and its operating conditions; and FIG. 8 is a flowchart for showing another process step of the smart power management method using another embodiment of the smart power management system of the present invention as shown in FIG. 7.

101, 102, 103: steps

Claims (10)

A smart power management method, which is applied in the field of smart automated energy-saving management environment, including the following procedures: Start the service; more than one user uses a mobile electronic device to scan the QR Code through the App screen to enter the field served by the smart power management system; Perform information presentation actions; and Perform analysis actions. For example, the smart power management method described in the first item of the scope of patent application, wherein when the information display action is performed, the App service interface is opened on the screen of the mobile electronic device, and the App service interface will display the information in the field Power consumption information of the device. For example, the smart electric energy management method described in item 1 of the scope of patent application, wherein when performing the information display action, an App service interface is opened on the screen of the mobile electronic device, and the App service interface will be displayed on the application of the field Power source information and its usage/energy saving status. For example, the smart power management method described in the first item of the scope of patent application, wherein, when the information display action is performed, the App service interface is opened on the screen of the mobile electronic device, and the App service interface will be displayed so that more than one person The user manages the usage status/energy saving goal of the electric energy usage information within a certain period of time. The smart power management method described in item 1 of the scope of patent application, wherein the smart power management system is located in a mobile electronic device. A smart power management system, which is applied in the field of smart automation and energy-saving management environment, including: Information processing module; Information receiving/transmitting module; and database; Among them, more than one user uses a mobile electronic device to scan the QR Code through the App screen to enter the field served by the smart power management system; and, the information processing module cooperates with the information receiving/transmitting module, and the Information display in the database. For example, the smart power management system described in item 6 of the scope of patent application, wherein the App service interface is opened on the screen of the mobile electronic device, and the App service interface will be displayed, which is received and transmitted by the information receiving/transmitting module Power consumption information of equipment in the field to the information processing module. For example, the smart power management system described in item 6 of the scope of patent application, wherein the App service interface is opened on the screen of the mobile electronic device, and the App service interface will be displayed, which is received and transmitted by the information receiving/transmitting module The power source information of the field and its usage/energy saving status to the information processing module. For example, the smart power management system described in item 6 of the scope of patent application, wherein the App service interface is opened on the screen of the mobile electronic device, and the App service interface will be displayed, which is received and transmitted by the information receiving/transmitting module The information processing module allows the more than one user to manage the usage status/energy saving target of the electric energy usage information within a certain period of time. For example, the smart power management system described in item 6 of the scope of patent application, wherein the smart power management system is located in a mobile electronic device.

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