CN112947924A

CN112947924A - Energy information monitoring method, device, terminal, storage medium and processor

Info

Publication number: CN112947924A
Application number: CN202110244910.4A
Authority: CN
Inventors: 钟世允; 李易龙; 许芳萃
Original assignee: Gree Electric Appliances Inc of Zhuhai
Current assignee: Gree Electric Appliances Inc of Zhuhai
Priority date: 2021-03-05
Filing date: 2021-03-05
Publication date: 2021-06-11

Abstract

The invention discloses an energy information monitoring method, an energy information monitoring device, a terminal, a storage medium and a processor, wherein the method comprises the following steps: receiving energy data uploaded by different types of equipment; converting the energy data uploaded by the different types of equipment to obtain energy conversion data of the different types of equipment; processing the energy conversion data of the different types of equipment to obtain energy processing data of the different types of equipment; and taking the energy processing data of the different types of equipment as the current energy data of the different types of equipment, and displaying the current energy data of the different types of equipment so as to realize monitoring of the energy data of the different types of equipment. This scheme through setting up general type energy monitoring mode, can carry out the energy monitoring to the equipment of different grade type to reduce the human cost.

Description

Energy information monitoring method, device, terminal, storage medium and processor

Technical Field

The invention belongs to the technical field of computers, and particularly relates to an energy information monitoring method, an energy information monitoring device, a terminal, a storage medium and a processor, in particular to a method, a device, a terminal, a storage medium and a processor for displaying an energy characteristic universal front-end component of equipment.

Background

In an energy internet scenario, different types of devices have certain energy characteristics, such as: the energy source can be electric energy or heat energy. If energy information such as energy use condition and energy trend of different devices needs to be observed, developers need to respectively establish corresponding monitoring systems for various devices, observe indexes, display effects and the like, and functions of the monitoring systems cannot be reused, so that labor cost is high.

The above is only for the purpose of assisting understanding of the technical aspects of the present invention, and does not represent an admission that the above is prior art.

Disclosure of Invention

The invention aims to provide an energy information monitoring method, an energy information monitoring device, a terminal, a storage medium and a processor, so as to solve the problem that when energy information of different types of equipment is observed, corresponding monitoring systems need to be established respectively aiming at the different types of equipment manually, so that the labor cost is high, and achieve the effect of reducing the labor cost by setting a general energy monitoring mode and carrying out energy monitoring aiming at the different types of equipment.

The invention provides an energy information monitoring method, which comprises the following steps: receiving energy data uploaded by different types of equipment; converting the energy data uploaded by the different types of equipment to obtain energy conversion data of the different types of equipment; processing the energy conversion data of the different types of equipment to obtain energy processing data of the different types of equipment; and taking the energy processing data of the different types of equipment as the current energy data of the different types of equipment, and displaying the current energy data of the different types of equipment so as to realize monitoring of the energy data of the different types of equipment.

In some embodiments, receiving energy data uploaded by different types of devices includes: receiving energy data uploaded by different types of equipment according to a set uploading rate; the uploading rate can be set according to the monitoring requirement of a preset monitoring end.

In some embodiments, converting the energy data uploaded by the different types of devices to obtain the energy conversion data of the different types of devices includes: according to a predefined standard energy transmission format, performing format conversion on the energy data uploaded by the different types of equipment to obtain the standard energy data uploaded by the different types of equipment, wherein the standard energy data are used as energy conversion data uploaded by the different types of equipment; wherein the standard energy transmission format comprises: transmission time, transmission content, and transmission unit; the transmission content comprises: the identification of the different types of devices, the amount and destination of energy that the different types of devices can provide, and the amount and source of energy that the different types of devices need to consume.

In some embodiments, processing the energy conversion data of the different types of devices to obtain the energy processing data of the different types of devices comprises: determining a processing mode for processing the energy conversion data of the different types of equipment according to a preset configuration mode; the processing mode comprises the following steps: at least one of a statistical approach and a computational approach; the statistical mode is to perform statistics on the energy conversion data of the different types of equipment according to set dimensions to obtain regular energy data of the different types of equipment; the setting dimension comprises: at least one of temporal, spatial, flow direction; and the calculation mode is to calculate the energy conversion data of the different types of equipment or the regular energy data of the different types of equipment according to a set calculation mode so as to at least obtain the energy benefit data of the different types of equipment.

In some embodiments, presenting the current energy data for the different types of devices includes: and loading a set function display module by utilizing a preset energy data page so as to display the equipment identifications of the different types of equipment and the current energy data of the different types of equipment in the function display module.

In some embodiments, further comprising: and updating historical energy data of the different types of equipment stored in a preset database according to the current energy data of the different types of equipment.

In some embodiments, further comprising: and if a preset query request of a monitoring end is received, pushing the current energy data and/or the historical energy data of the equipment of the corresponding type in the different types of equipment to the monitoring end according to the equipment of the corresponding type in the different types of equipment which needs to be queried by the query request so as to monitor the energy data of the equipment of the different types.

In accordance with the above method, another aspect of the present invention provides an energy information monitoring apparatus, including: a receiving unit configured to receive energy data uploaded by different types of devices; the conversion unit is configured to convert the energy data uploaded by the different types of equipment to obtain energy conversion data of the different types of equipment; the processing unit is configured to process the energy conversion data of the different types of equipment to obtain energy processing data of the different types of equipment; and the display unit is configured to use the energy processing data of the different types of equipment as the current energy data of the different types of equipment, and display the current energy data of the different types of equipment so as to monitor the energy data of the different types of equipment.

In some embodiments, the receiving unit receives energy data uploaded by different types of devices, including: receiving energy data uploaded by different types of equipment according to a set uploading rate; the uploading rate can be set according to the monitoring requirement of a preset monitoring end.

In some embodiments, the converting unit converts the energy data uploaded by the different types of devices to obtain the energy conversion data of the different types of devices, and includes: according to a predefined standard energy transmission format, performing format conversion on the energy data uploaded by the different types of equipment to obtain the standard energy data uploaded by the different types of equipment, wherein the standard energy data are used as energy conversion data uploaded by the different types of equipment; wherein the standard energy transmission format comprises: transmission time, transmission content, and transmission unit; the transmission content comprises: the identification of the different types of devices, the amount and destination of energy that the different types of devices can provide, and the amount and source of energy that the different types of devices need to consume.

In some embodiments, the processing unit processes the energy conversion data of the different types of devices to obtain the energy processing data of the different types of devices, and includes: determining a processing mode for processing the energy conversion data of the different types of equipment according to a preset configuration mode; the processing mode comprises the following steps: at least one of a statistical approach and a computational approach; the statistical mode is to perform statistics on the energy conversion data of the different types of equipment according to set dimensions to obtain regular energy data of the different types of equipment; the setting dimension comprises: at least one of temporal, spatial, flow direction; and the calculation mode is to calculate the energy conversion data of the different types of equipment or the regular energy data of the different types of equipment according to a set calculation mode so as to at least obtain the energy benefit data of the different types of equipment.

In some embodiments, the presentation unit presents the current energy data of the different types of devices, including: and loading a set function display module by utilizing a preset energy data page so as to display the equipment identifications of the different types of equipment and the current energy data of the different types of equipment in the function display module.

In some embodiments, further comprising: the display unit is further configured to update historical energy data of the different types of equipment stored in a preset database according to the current energy data of the different types of equipment.

In some embodiments, further comprising: the display unit is further configured to, if a preset query request of the monitoring end is received, push current energy data and/or historical energy data of the corresponding type of equipment in the different types of equipment to the monitoring end according to the corresponding type of equipment in the different types of equipment which needs to be queried according to the query request, so as to monitor the energy data of the different types of equipment.

In accordance with the above apparatus, a further aspect of the present invention provides a terminal, including: the energy information monitoring device is described above.

In accordance with the foregoing method, a further aspect of the present invention provides a storage medium, where the storage medium includes a stored program, and the apparatus where the storage medium is located is controlled to execute the foregoing method for monitoring energy information when the program runs.

In accordance with the above method, a further aspect of the present invention provides a processor for running a program, wherein the program is run to execute the above energy information monitoring method.

Therefore, according to the scheme provided by the invention, a set of universal front-end components is designed and developed aiming at common functions in energy characteristics of different equipment, a universal energy data monitoring system is realized, and energy monitoring can be carried out aiming at different types of equipment by setting a universal energy monitoring mode so as to reduce the labor cost.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

Fig. 1 is a schematic flow chart illustrating an embodiment of an energy information monitoring method according to the present invention;

fig. 2 is a schematic structural diagram of an embodiment of an energy information monitoring apparatus according to the present invention;

FIG. 3 is a schematic flow chart diagram illustrating one embodiment of energy data interaction;

FIG. 4 is a schematic flow diagram of one embodiment of a developer using an assembly to demonstrate device energy characteristics;

FIG. 5 is a flow diagram illustrating an embodiment of energy data page element data display logic.

The reference numbers in the embodiments of the present invention are as follows, in combination with the accompanying drawings:

102-a receiving unit; 104-a conversion unit; 106-a processing unit; 108-display unit.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the specific embodiments of the present invention and the accompanying drawings. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

According to an embodiment of the present invention, there is provided an energy information monitoring method, as shown in fig. 1, which is a schematic flow chart of an embodiment of the method of the present invention. The energy information monitoring method may include: step S110 to step S140.

At step S110, energy data uploaded by different types of devices is received.

In some embodiments, the receiving energy data uploaded by different types of devices in step S110 includes: and receiving the energy data uploaded by different types of equipment according to the set uploading rate. The uploading rate can be set according to the monitoring requirement of a preset monitoring end.

Specifically, the underlying energy device uploads its energy data every 10ms, and the transmission format is defined with reference to the energy transmission format. Wherein, 10ms is a default value and can be adjusted according to actual requirements.

In step S120, the energy data uploaded by the different types of devices is converted to obtain energy conversion data of the different types of devices.

In some embodiments, the converting the energy data uploaded by the different types of devices in step S120 to obtain the energy conversion data of the different types of devices includes: and according to a predefined standard energy transmission format, carrying out format conversion on the energy data uploaded by the different types of equipment to obtain the standard energy data uploaded by the different types of equipment, and using the standard energy data as the energy conversion data uploaded by the different types of equipment. For example: a certain type of energy equipment developer sets a data uploading rate and defines a conversion rule of the type of energy data, and the energy data conversion module converts the certain type of energy data into a unified metering unit according to the conversion rule.

Specifically, the energy data conversion module: and different types of energy data are uniformly converted into standard types of energy data through a certain standard. Wherein, certain standards include: energy metering units of different systems or different equipment are different in mode; such as electrical and thermal energy, etc. The standard is a unit standard brick measuring value, and different types of energy sources are converted into consistent measuring units. The method for uniformly converting the different types of energy data into the standard types of energy data comprises the following steps: the energy values of different systems are converted into a unified unit standard metering value, and the conversion can be completed at an equipment end or at a service end.

Wherein the standard energy transmission format comprises: transmission time, transmission content, and transmission unit. The transmission content comprises: the identification of the different types of devices, the amount and destination of energy that the different types of devices can provide, and the amount and source of energy that the different types of devices need to consume. For example: the definition of the energy transmission protocol format is that each system has the required energy characteristics, and the general energy protocol is defined herein to represent how much energy a device can provide, how much energy it consumes, the energy source, the energy destination, and the like.

Therefore, a universal energy data monitoring system is realized by defining a universal energy data transmission format, so that the energy characteristics of various types of equipment can use the unified monitoring system, and the labor cost is reduced.

In step S130, the energy conversion data of the different types of devices is processed to obtain energy processing data of the different types of devices.

In some embodiments, the processing the energy conversion data of the different types of devices in step S130 to obtain the energy processing data of the different types of devices includes: and determining a processing mode for processing the energy conversion data of the different types of equipment according to a preset configuration mode. The processing mode comprises the following steps: at least one of a statistical approach and a computational approach. For example: the developer formulates an energy data calculation rule according to needs, and the energy calculation module calculates various benefit data, analysis data and the like according to the calculation rule.

Specifically, the energy data conversion module receives the equipment energy data, converts the equipment energy data into a universal metering unit, and distributes the converted data to the energy data statistics module and the calculation module according to the configuration. The energy data statistics and calculation rules are customized by a user, but default rules exist, such as statistics according to time, statistics and calculation according to regions and equipment classification.

For example: the energy data are distributed to an energy data statistical module and a calculation module according to the configuration, and the energy data statistical module and the calculation module comprise: different statistical rules are specifically used, and a user can use a plurality of different calculation rules simultaneously or specify a specific calculation module to perform calculation.

And the statistical mode is to perform statistics on the energy conversion data of the different types of equipment according to set dimensions to obtain regular energy data of the different types of equipment. The setting dimension comprises: at least one of temporal, spatial, and flow direction.

Specifically, the energy data statistics module is used for arranging a large amount of time sequence energy data into regular data such as adult, month and day according to the converted equipment energy data in dimensions such as time, space and flow direction. For example, the current time sequence real-time energy data of a single device is classified into statistical data of time dimensions such as year, month and day and stored.

And the calculation mode is to calculate the energy conversion data of the different types of equipment or the regular energy data of the different types of equipment according to a set calculation mode so as to at least obtain the energy benefit data of the different types of equipment.

Specifically, the energy data calculation module is responsible for calculating the energy data of the equipment or the counted regular data into benefit data or various types of analysis data according to preset or customized calculation rules. Such as implementing multiple device classification calculations, or calculating energy data into other data according to custom rules. Wherein, according to the preset or self-defined calculation rule, the method comprises the following steps: and calculating rules for converting the energy data into other types of data, or related rules for performing data analysis on the energy data. Such as: the energy data is equivalent to the electricity generation amount of coal, the inflow/outflow energy amount of one device is proportional to the electricity generation amount, the amount of consumed energy or generated energy is predicted in the future, and the amount is converted into the monetary profit.

The energy data conversion component and the energy data statistics component are used as middleware of the energy statistics system and can be realized at a server side or a bottom layer equipment side or edge equipment, but the configuration setting modification of the components can be remotely modified or locally upgraded and modified through a server.

Therefore, a set of energy conversion calculation standards is realized for different types of energy, and the set of front end components is guaranteed to be suitable for different devices.

In step S140, the energy processing data of the different types of devices is used as the current energy data of the different types of devices, and the current energy data of the different types of devices is displayed to implement monitoring of the energy data of the different types of devices.

Specifically, through the common function to among the different equipment energy characteristics, design and develop one set of general front end subassembly, realized general energy data monitoring system for the energy characteristic of multiple type equipment can use unified monitoring system, has solved the energy control of energy internet equipment and can not reuse the problem, reduces the development cost of developing novel energy equipment.

In some embodiments, the presenting of the current energy data of the different types of devices in step S140 includes: and loading a set function display module by utilizing a preset energy data page so as to display the equipment identifications of the different types of equipment and the current energy data of the different types of equipment in the function display module.

Specifically, a developer uses the energy data page component according to the user demand to manufacture a corresponding device energy monitoring page, and the user can check the device energy state and the related energy data condition on the page.

For example: and the energy data page component loads a page configuration file and renders a corresponding functional component according to the configuration. The energy data page component acquires equipment information and acquires energy data of corresponding equipment: statistical data or calculated data. And reading corresponding data information by each functional component, displaying specific content, acquiring real-time energy data of the equipment by the current functional component through a real-time data channel as required, and updating the page.

The energy page component supports multi-platform use, can be a page component of a Web end, and can also be a display component of a computer/mobile phone client, and the use method is the same as the data synchronization method.

Therefore, flexible and complete energy data acquisition and data statistics architectures are defined, and different types of equipment, multi-dimensional energy data monitoring functions and various observation pages are supported; the transmission standard and the conversion standard of the energy characteristics are defined, and the device is compatible with different types of devices, so that the energy characteristics of the different types of devices can use a uniform calculation rule, and the energy condition can be integrally observed.

In some embodiments, further comprising: a process of updating historical energy data for different types of devices.

And under the condition that the energy conversion data of the different types of equipment are processed to obtain the energy processing data of the different types of equipment, updating the historical energy data of the different types of equipment stored in a preset database according to the current energy data of the different types of equipment.

In some embodiments, further comprising: a process of pushing historical energy data for different types of devices.

Under the condition that energy conversion data of the different types of equipment are processed to obtain energy processing data of the different types of equipment, even under the condition that historical energy data of the different types of equipment stored in a preset database is updated according to current energy data of the different types of equipment, if a preset query request of a monitoring end is received, pushing the current energy data and/or the historical energy data of the corresponding types of equipment in the different types of equipment to the monitoring end according to the corresponding types of equipment in the different types of equipment required to be queried by the query request so as to monitor the energy data of the different types of equipment.

Specifically, the data query module updates the updated energy data and statistical data to the database and pushes the updated energy data and statistical data to the client side which monitors data changes, and also provides an interface for querying historical data.

Through a large amount of experimental verifications, adopt the technical scheme of this embodiment, through to the common function in the different equipment energy characteristics, design and develop a set of general front end subassembly, realized general energy data monitoring system, through setting up general type energy monitoring mode, can carry out the energy monitoring to the equipment of different grade type to reduce the human cost.

According to the embodiment of the invention, an energy information monitoring device corresponding to the energy information monitoring method is also provided. Referring to fig. 2, a schematic diagram of an embodiment of the apparatus of the present invention is shown. The energy information monitoring device may include: a receiving unit 102, a converting unit 104, a processing unit 106 and a presentation unit 108.

Wherein, the receiving unit 102 is configured to receive the energy data uploaded by different types of devices. The specific functions and processes of the receiving unit 102 are shown in step S110.

In some embodiments, the receiving unit 102, which receives energy data uploaded by different types of devices, includes: the receiving unit 102 is further specifically configured to receive energy data uploaded by different types of devices according to a set uploading rate. The uploading rate can be set according to the monitoring requirement of a preset monitoring end.

A conversion unit 104 configured to convert the energy data uploaded by the different types of devices to obtain energy conversion data of the different types of devices. The specific function and processing of the conversion unit 104 are referred to in step S120.

In some embodiments, the converting unit 104 converts the energy data uploaded by the different types of devices to obtain the energy conversion data of the different types of devices, including: the conversion unit 104 is further specifically configured to perform format conversion on the energy data uploaded by the different types of devices according to a predefined standard energy transmission format, so as to obtain the standard energy data uploaded by the different types of devices, which is used as the energy conversion data uploaded by the different types of devices. For example: a certain type of energy equipment developer sets a data uploading rate and defines a conversion rule of the type of energy data, and the energy data conversion module converts the certain type of energy data into a unified metering unit according to the conversion rule.

A processing unit 106 configured to process the energy conversion data of the different types of devices to obtain energy processing data of the different types of devices. The specific function and processing of the processing unit 106 are shown in step S130.

In some embodiments, the processing unit 106 processes the energy conversion data of the different types of devices to obtain the energy processing data of the different types of devices, including: the processing unit 106 is further specifically configured to determine a processing manner for processing the energy conversion data of the different types of devices according to a preset configuration manner. The processing mode comprises the following steps: at least one of a statistical approach and a computational approach. For example: the developer formulates an energy data calculation rule according to needs, and the energy calculation module calculates various benefit data, analysis data and the like according to the calculation rule.

The presentation unit 108 is configured to present the energy processing data of the different types of devices as the current energy data of the different types of devices, so as to monitor the energy data of the different types of devices. The detailed function and processing of the presentation unit 108 are shown in step S140.

In one embodiment, the presentation unit 108 presents the current energy data of the different types of devices, including: the display unit 108 is further configured to load a set function display module by using a preset energy data page, so as to display the device identifier of the different types of devices and the current energy data of the different types of devices in the function display module.

The energy page component supports multi-platform use, can be a page component of a Web end, and can also be a display component of a computer/mobile phone client, and the use device is the same as the data synchronization device.

In some embodiments, further comprising: the process of updating historical energy data of different types of equipment specifically comprises the following steps: the display unit 108 is further configured to update the historical energy data of the different types of devices stored in the preset database according to the current energy data of the different types of devices when the energy conversion data of the different types of devices is processed to obtain the energy processing data of the different types of devices.

In some embodiments, further comprising: the process of pushing historical energy data of different types of equipment specifically comprises the following steps: the display unit 108 is further specifically configured to, when the energy conversion data of the different types of devices is processed to obtain the energy processing data of the different types of devices, and even when the historical energy data of the different types of devices stored in the preset database is updated according to the current energy data of the different types of devices, if a preset query request of the monitoring terminal is received, push the current energy data and/or the historical energy data of the corresponding types of devices in the different types of devices to the monitoring terminal according to the corresponding types of devices in the different types of devices that the query request needs to query, so as to monitor the energy data of the different types of devices.

Since the processes and functions implemented by the apparatus of this embodiment substantially correspond to the embodiments, principles, and examples of the method shown in fig. 1, reference may be made to the related descriptions in the foregoing embodiments for details which are not described in the description of this embodiment, and further description is not given here.

Through a large number of tests, the technical scheme of the invention is adopted, and a set of universal front end components is designed and developed aiming at common functions in energy characteristics of different equipment, so that a universal energy data monitoring system is realized, a set of energy conversion calculation standards is realized aiming at different types of energy, the set of front end components is ensured to be suitable for different equipment, and the labor cost is reduced.

According to the embodiment of the invention, a terminal corresponding to the energy information monitoring device is also provided. The terminal may include: the energy information monitoring device is described above.

In some embodiments, the solution of the present invention designs and develops a set of universal front-end components for common functions in different energy characteristics of devices, that is, a universal front-end component for displaying energy characteristics of devices. And moreover, a set of energy conversion calculation standards is realized for different types of energy, and the set of front end components is ensured to be suitable for different devices. Therefore, the problem that energy monitoring of energy internet equipment cannot be reused is solved, and the development cost for developing novel energy equipment is reduced.

According to the scheme, a universal energy data transmission format is defined, a universal energy data monitoring system is realized, and the energy characteristics of various types of equipment can use the unified monitoring system.

According to the scheme, a flexible and complete energy data acquisition and data statistics framework is defined, and different types of equipment, a multi-dimensional energy data monitoring function and various observation pages are supported; the transmission standard and the conversion standard of the energy characteristics are defined, and the device is compatible with different types of devices, so that the energy characteristics of the different types of devices can use a uniform calculation rule, and the energy condition can be integrally observed.

In some embodiments, aspects of the present invention design and develop a universal front-end component system that exhibits device energy characteristics. The implementation process of the component system comprises the following steps: the energy transmission protocol format definition, the energy data statistics and calculation rules, the different types of energy data conversion components and the like.

The definition of the energy transmission protocol format is that each system has the required energy characteristics, and the definition here is a universal energy protocol, which indicates how much energy a device can provide, how much energy it consumes, the energy source, the energy destination, and so on.

The energy data statistics and calculation rules are customized by a user, but default rules exist, such as statistics according to time, statistics and calculation according to regions and equipment classification.

The energy transmission format is defined as follows (in Json for example):

in some embodiments, in aspects of the invention, a universal front-end module for demonstrating device energy characteristics, comprises: the energy data conversion module, the energy data statistics module, the energy data calculation module and the energy data page component.

Energy data conversion module: and different types of energy data are uniformly converted into standard types of energy data through a certain standard.

Wherein, certain standards include: energy metering units of different systems or different equipment are different in mode; such as electrical and thermal energy, etc. The standard is a unit standard brick measuring value, and different types of energy sources are converted into consistent measuring units.

The method for uniformly converting the different types of energy data into the standard types of energy data comprises the following steps: the energy values of different systems are converted into a unified unit standard metering value, and the conversion can be completed at an equipment end or at a service end.

Energy data statistics module: and classifying the current time sequence real-time energy data of the single device into statistical data of time dimensions such as year, month and day, and storing the statistical data.

The energy data calculation module: and (4) realizing the classified calculation of a plurality of devices, or calculating the energy data into other data according to a custom rule.

Wherein, calculate into other data according to self-defined rule energy data, include: user-defined statistical rules or component default calculation rules. Such as: the energy data is equivalent to the electricity generation amount of coal, the inflow/outflow energy amount of one device is proportional to the electricity generation amount, the amount of consumed energy or generated energy is predicted in the future, and the amount is converted into the monetary profit.

Energy data page component: the energy characteristics of the equipment can be displayed, the historical data and the monitoring data of the equipment can be acquired, and the real-time change can be realized, and the method comprises the following functions: historical energy characteristic query, real-time energy characteristic monitoring, energy curve change and the like.

Fig. 3 is a flowchart illustrating an embodiment of energy data interaction. As shown in fig. 3, the energy data interaction process includes:

and 11, uploading the energy data of the bottom layer energy equipment every 10ms, wherein the transmission format is defined by referring to the energy transmission format. Wherein, 10ms is a default value and can be adjusted according to actual requirements.

And step 12, the energy data conversion module receives the equipment energy data, converts the equipment energy data into a universal metering unit, and distributes the converted data to the energy data statistical module and the calculation module according to the configuration.

Wherein, distribute to energy data statistics module and calculation module according to the configuration, include: different statistical rules are specifically used, and a user can use a plurality of different calculation rules simultaneously or specify a specific calculation module to perform calculation.

And step 13, an energy data statistics module is used for arranging a large amount of time sequence energy data into regular data of adults, months, days and the like according to the dimensions of time, space, flow direction and the like of the converted equipment energy data.

And step 14, the energy data calculation module is responsible for calculating the energy data of the equipment or the counted regular data into benefit data or various types of analysis data according to preset or customized calculation rules.

Wherein, according to the preset or self-defined calculation rule, the method comprises the following steps: and calculating rules for converting the energy data into other types of data, or related rules for performing data analysis on the energy data.

And step 15, the data query module updates the updated energy data and statistical data to a database and pushes the updated energy data and statistical data to a client for monitoring data change, and also provides an interface for querying historical data.

And step 16, reading and displaying corresponding energy data by various functional components in the energy data page component.

FIG. 4 is a flow diagram of one embodiment of a developer using an assembly to demonstrate device energy characteristics. As shown in fig. 4, the process of using the component to display the energy characteristics of the device by the developer includes:

and step 21, setting a data uploading rate by a certain type of energy equipment developer, defining a conversion rule of the type of energy data, and converting the certain type of energy data into a unified metering unit by an energy data conversion module according to the conversion rule.

And step 22, the developer formulates an energy data calculation rule according to the requirement, and the energy calculation module calculates various benefit data, analysis data and the like according to the calculation rule.

And step 23, the developer uses the energy data page component according to the user requirement to manufacture a corresponding device energy monitoring page, and the user can check the device energy state and the related energy data condition on the page.

After all the above operations are completed, the following relevant configuration files will be generated: energy conversion rule definition, energy calculation rule definition and page configuration file.

FIG. 5 is a flow diagram illustrating an embodiment of energy data page element data display logic. As shown in fig. 5, the energy data page component data display logic includes:

and 31, loading a page configuration file by the energy data page component, and rendering a corresponding functional component according to the configuration.

Step 32, the energy data page component acquires the equipment information and acquires the energy data of the corresponding equipment: statistical data or calculated data.

And step 33, reading corresponding data information by each functional component, displaying specific content, acquiring real-time energy data of the equipment by the current functional component through a real-time data channel as required, and updating the page.

In the scheme of the invention, the energy data conversion component and the energy data statistical component are used as middleware of the energy statistical system and can be realized at a server side or a bottom layer equipment side or edge equipment, but the configuration setting modification of the components can be remotely modified or locally upgraded and modified through the server.

In the scheme of the invention, the energy page component supports multi-platform use, can be a page component of a Web end, and can also be a display component of a computer/mobile phone client, and the use method is the same as the data synchronization method.

In the solution of the present invention, energy transmission formats include, but are not limited to, JSON (which is a lightweight data exchange format), protobuf (which is a protocol of a platform-independent, language-independent, extensible, lightweight, and efficient serialized data structure that can be used for network communication and data storage), thrift (which is an interface description language and binary communication protocol that is used to define and create cross-language services), text format, binary format, and the like.

Since the processes and functions implemented by the terminal of this embodiment substantially correspond to the embodiments, principles, and examples of the apparatus shown in fig. 2, reference may be made to the related descriptions in the foregoing embodiments for details which are not described in detail in the description of this embodiment, and no further description is given here.

Through a large number of tests, the technical scheme of the invention is adopted, and a set of universal front end components are designed and developed aiming at common functions in energy characteristics of different equipment, so that a universal energy data monitoring system is realized, the problem that energy monitoring of energy Internet equipment cannot be reused is solved, and the development cost for developing novel energy equipment is reduced.

According to an embodiment of the present invention, there is also provided a storage medium corresponding to the energy information monitoring method, the storage medium including a stored program, wherein when the program runs, the apparatus where the storage medium is located is controlled to execute the energy information monitoring method.

Since the processing and functions implemented by the storage medium of this embodiment substantially correspond to the embodiments, principles, and examples of the method shown in fig. 1, reference may be made to the related descriptions in the foregoing embodiments for details which are not described in detail in the description of this embodiment, and thus no further description is given here.

Through a large number of tests, the technical scheme of the invention is adopted, and a set of universal front end components are designed and developed aiming at common functions in the energy characteristics of different equipment, so that a universal energy data monitoring system is realized, the energy characteristics of various types of equipment can use a unified monitoring system, and the development cost for developing novel energy equipment is reduced.

According to an embodiment of the present invention, there is also provided a processor corresponding to the energy information monitoring method, the processor being configured to run a program, wherein the program is run to execute the energy information monitoring method described above.

Since the processing and functions implemented by the processor of this embodiment substantially correspond to the embodiments, principles, and examples of the method shown in fig. 1, reference may be made to the related descriptions in the foregoing embodiments for details which are not described in the description of this embodiment, and thus no further description is given here.

Through a large number of tests, the technical scheme of the invention is adopted, and a set of universal front-end components are designed and developed aiming at common functions in the energy characteristics of different equipment, so that a universal energy data monitoring system is realized, the energy characteristics of different types of equipment can use a uniform calculation rule, and the energy condition can be integrally observed.

In summary, it is readily understood by those skilled in the art that the advantageous modes described above can be freely combined and superimposed without conflict.

The above description is only an example of the present invention, and is not intended to limit the present invention, and it is obvious to those skilled in the art that various modifications and variations can be made in the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims

1. An energy information monitoring method, comprising:

receiving energy data uploaded by different types of equipment;

converting the energy data uploaded by the different types of equipment to obtain energy conversion data of the different types of equipment;

processing the energy conversion data of the different types of equipment to obtain energy processing data of the different types of equipment;

and taking the energy processing data of the different types of equipment as the current energy data of the different types of equipment, and displaying the current energy data of the different types of equipment so as to realize monitoring of the energy data of the different types of equipment.

2. The method for monitoring energy information according to claim 1, wherein receiving energy data uploaded by different types of devices comprises:

receiving energy data uploaded by different types of equipment according to a set uploading rate; the uploading rate can be set according to the monitoring requirement of a preset monitoring end.

3. The method for monitoring energy information according to claim 1, wherein converting the energy data uploaded by the different types of devices to obtain the energy conversion data of the different types of devices comprises:

according to a predefined standard energy transmission format, performing format conversion on the energy data uploaded by the different types of equipment to obtain the standard energy data uploaded by the different types of equipment, wherein the standard energy data are used as energy conversion data uploaded by the different types of equipment;

wherein the standard energy transmission format comprises: transmission time, transmission content, and transmission unit; the transmission content comprises: the identification of the different types of devices, the amount and destination of energy that the different types of devices can provide, and the amount and source of energy that the different types of devices need to consume.

4. The method for monitoring energy information according to claim 1, wherein processing the energy conversion data of the different types of devices to obtain the energy processing data of the different types of devices comprises:

determining a processing mode for processing the energy conversion data of the different types of equipment according to a preset configuration mode; the processing mode comprises the following steps: at least one of a statistical approach and a computational approach;

wherein the content of the first and second substances,

the statistical mode is to perform statistics on the energy conversion data of the different types of equipment according to set dimensions to obtain regular energy data of the different types of equipment; the setting dimension comprises: at least one of temporal, spatial, flow direction;

5. The method for monitoring energy information according to claim 1, wherein the displaying the current energy data of the different types of devices comprises:

and loading a set function display module by utilizing a preset energy data page so as to display the equipment identifications of the different types of equipment and the current energy data of the different types of equipment in the function display module.

6. The energy information monitoring method according to any one of claims 1 to 5, further comprising:

and updating historical energy data of the different types of equipment stored in a preset database according to the current energy data of the different types of equipment.

7. The method for monitoring energy information according to claim 6, further comprising:

and if a preset query request of a monitoring end is received, pushing the current energy data and/or the historical energy data of the equipment of the corresponding type in the different types of equipment to the monitoring end according to the equipment of the corresponding type in the different types of equipment which needs to be queried by the query request so as to monitor the energy data of the equipment of the different types.

8. An energy information monitoring device, comprising:

a receiving unit configured to receive energy data uploaded by different types of devices;

the conversion unit is configured to convert the energy data uploaded by the different types of equipment to obtain energy conversion data of the different types of equipment;

the processing unit is configured to process the energy conversion data of the different types of equipment to obtain energy processing data of the different types of equipment;

and the display unit is configured to use the energy processing data of the different types of equipment as the current energy data of the different types of equipment, and display the current energy data of the different types of equipment so as to monitor the energy data of the different types of equipment.

9. The energy information monitoring device according to claim 8, wherein the receiving unit receives the energy data uploaded by different types of equipment, and comprises:

10. The apparatus according to claim 8, wherein the converting unit converts the energy data uploaded by the different types of devices to obtain the energy conversion data of the different types of devices, and includes:

11. The apparatus according to claim 8, wherein the processing unit processes the energy conversion data of the different types of devices to obtain the energy processing data of the different types of devices, and includes:

wherein the content of the first and second substances,

12. The apparatus according to claim 8, wherein the display unit displays the current energy data of the different types of devices, and includes:

13. The energy information monitoring device according to any one of claims 8 to 12, further comprising:

the display unit is further configured to update historical energy data of the different types of equipment stored in a preset database according to the current energy data of the different types of equipment.

14. The energy information monitoring device according to claim 13, further comprising:

the display unit is further configured to, if a preset query request of the monitoring end is received, push current energy data and/or historical energy data of the corresponding type of equipment in the different types of equipment to the monitoring end according to the corresponding type of equipment in the different types of equipment which needs to be queried according to the query request, so as to monitor the energy data of the different types of equipment.

15. A terminal, comprising: the energy information monitoring device according to any one of claims 8 to 14.

16. A storage medium comprising a stored program, wherein the program controls a device in which the storage medium is located to perform the energy information monitoring method according to any one of claims 1 to 7 when the program is executed.

17. A processor, configured to execute a program, wherein the program executes the energy information monitoring method according to any one of claims 1 to 7.