CN113139758B - HomeMap-based energy consumption management method and system integrating social function - Google Patents

Abstract

The invention discloses an energy consumption management method and system based on HomeMap and integrating social functions, wherein the method comprises the following steps: homeMap collecting consumption of the resource indexes of each controlled device by the end, and generating energy elements of each controlled device according to the consumption of the resource indexes of each controlled device according to a preset conversion rule; collecting energy elements of each controlled device at the HomeMap end, and exchanging rewards through the collected energy elements; the HomeMap ends of other users and the rewards exchanged for the gifts are accessed through the social platform. Therefore, the user is promoted to pay more attention to the energy consumption condition in the home, the initiative and the enthusiasm of the user can be greatly improved by exchanging the rewarding piece, and an exchange channel for energy consumption management with other users is provided for the user.

Description

HomeMap-based energy consumption management method and system integrating social function

Technical Field

The invention relates to the technical field of intelligent home, in particular to an energy consumption management method and system based on HomeMap and integrating social functions.

Background

In the existing intelligent home, a user can control intelligent equipment of the whole house through user terminals such as mobile phones, and convenience is brought to life of people. However, in the user terminal, various intelligent devices are displayed through a list, and a user cannot intuitively see the positions and environments of the intelligent devices; moreover, although the existing user terminal has an energy consumption analysis function, the existing user terminal only pushes reports, lacks an incentive effect for improving the energy saving and environment protection consciousness of the user, lacks a platform for the user to communicate with other users for energy consumption management, cannot learn excellent cases of energy saving linkage scenes of the other users, and lacks initiative and enthusiasm for energy consumption optimization.

Disclosure of Invention

The invention aims to provide an energy consumption management method based on HomeMap and integrating social functions, which promotes users to pay more attention to the energy consumption condition in home, can greatly improve the initiative and the enthusiasm of the users by exchanging rewards, and provides communication channels for the users to manage the energy consumption with other users.

The invention further aims to provide an energy consumption management system based on HomeMap and integrating social functions, which promotes users to pay more attention to the energy consumption condition in home, can greatly improve the initiative and the enthusiasm of the users by exchanging rewards, and provides communication channels for the users to manage the energy consumption with other users.

In order to solve the technical problems, the first aspect of the invention discloses an energy consumption management method based on HomeMap and integrating social functions, which comprises the following steps:

Establishing a spatial distribution diagram of each controlled device in a designated space to generate HomeMap ends, and controlling each controlled device through the identification of each controlled device in the HomeMap ends;

The HomeMap end collects consumption of the resource indexes of each controlled device and generates energy elements of each controlled device according to the consumption of the resource indexes of each controlled device according to a preset conversion rule;

Collecting energy elements of each controlled device at the HomeMap end, and exchanging rewards through the collected energy elements;

the HomeMap ends of other users and the rewards exchanged for the gifts are accessed through the social platform.

As an optional implementation manner, in the first aspect of the present invention, generating, according to a preset conversion rule, energy elements of each controlled device according to consumption amounts of resource indexes of each controlled device includes:

Setting unit consumption of the resource indexes of each controlled device, wherein the number of energy elements of the resource indexes of the controlled device is the ratio of the total consumption of the resource indexes of the controlled device to the corresponding unit consumption.

As an optional implementation manner, in the first aspect of the present invention, the generating, according to a preset conversion rule, the energy element of each controlled device according to the consumption amount of the resource index of each controlled device, further includes:

Presetting an energy-saving task and a device optimizing task, and judging whether the energy-saving task or the device optimizing task is finished or not by tracking the consumption change of the controlled device;

when the energy-saving task or the equipment optimizing task is completed, a preset number of energy elements are obtained.

As an optional implementation manner, in the first aspect of the present invention, the creating a spatial distribution diagram of each controlled device in the specified space to generate HomeMap end includes:

Acquiring a house type diagram of a designated space and the position of each controlled device in the house type diagram, establishing a space distribution diagram, and displaying the identification of each controlled device at the position of each controlled device in the space distribution diagram to generate the HomeMap end;

and the HomeMap end is provided with an accessory database, the accessory database comprises one or more of a house type drawing library, an equipment model library and a background drawing library, and the spatial distribution diagram is built by selecting accessories in the accessory database.

As an optional implementation manner, in the first aspect of the present invention, after the HomeMap end collects consumption amounts of resource indexes of the controlled devices, the method further includes:

Different resource indexes adopt lines with different colors to connect the related controlled devices together so as to generate different resource index paths, and the related controlled devices in the resource index paths are displayed in nodes;

displaying consumption and running states of each node in the resource index path;

counting and analyzing consumption and running conditions of each node of the resource index path to generate an optimization scheme;

when the optimization scheme is selected to be executed, a preset number of energy elements are obtained.

As an optional implementation manner, in the first aspect of the present invention, accessing HomeMap ends of other users and the bonus piece to which the gifting is exchanged through the social platform includes:

The user selects and accesses each layout of the social platform, wherein the layout of the social platform comprises one or more of a space distribution diagram building case display area, a friend recommendation area, a space distribution diagram sharing area, an energy-saving scheme recommendation area and a friend interaction area;

and each section of the social platform is provided with HomeMap end access inlets of each related user, and the corresponding HomeMap end is accessed to interact through the access inlets.

As an alternative embodiment, in the first aspect of the present invention, further includes:

the social platform sends a corresponding number of energy elements to HomeMap ends of related users according to a preset rewarding rule;

the rewarding rule comprises one or more of rewarding users who are selected to be recorded in the space distribution diagram setting-up case display area or the energy-saving scheme recommendation area, rewarding users with the number of the rewards exceeding a first preset value, and rewarding users with the number of the adopted schemes or the number of the praise exceeding a second preset value.

The second aspect of the invention discloses an energy consumption management system based on HomeMap and integrating social functions, which comprises the following components:

HomeMap, establishing a spatial distribution diagram of each controlled device in a designated space, and controlling each controlled device through the identification of each controlled device in the spatial distribution diagram;

the HomeMap end comprises:

The energy element generation module is used for collecting the consumption of the resource index of each controlled device and generating energy elements of each controlled device according to the consumption of the resource index of each controlled device according to a preset conversion rule;

the rewarding piece exchange module is used for collecting energy elements of each controlled device and exchanging rewarding pieces through the collected energy elements;

The social platform is used for accessing HomeMap ends of other users and rewarding parts exchanged by the gifts.

As an alternative embodiment, in the second aspect of the present invention, the HomeMap end further includes:

the conversion rule module is used for setting the unit consumption of the resource index of each controlled device, and the number of the energy elements of the resource index of the controlled device is the ratio of the total consumption of the resource index of the controlled device to the corresponding unit consumption.

As an optional implementation manner, in the second aspect of the present invention, the conversion rule module is further configured to preset an energy saving task and a device optimizing task, and determine whether to complete the energy saving task or the device optimizing task by tracking a consumption change of the controlled device;

when the energy-saving task or the equipment optimizing task is completed, a preset number of energy elements are obtained.

As an alternative embodiment, in the second aspect of the present invention, the HomeMap end further includes:

and the building module is used for building the spatial distribution map by selecting accessories from a preset accessory database, wherein the accessory database comprises one or more of a house type map library, an equipment model library and a background map library.

As an alternative embodiment, in the second aspect of the present invention, the HomeMap end further includes:

The resource index path generation module is used for connecting the related controlled devices together by adopting different color lines to generate different resource index paths, wherein the related controlled devices in the resource index paths are displayed in a node mode; and displaying the consumption and the running state of each node in the resource index path;

The optimization scheme generation module is used for counting and analyzing the consumption and the running condition of each node of the resource index path to generate an optimization scheme;

when the optimization scheme is selected to be executed, a preset number of energy elements are obtained.

As an optional implementation manner, in the second aspect of the present invention, the social platform further includes:

the layout access module is used for enabling a user to select and access each layout of the social platform, wherein the layout of the social platform comprises one or more of a space distribution diagram setting-up case display area, a friend recommendation area, a space distribution diagram sharing area, an energy-saving scheme recommendation area and a friend interaction area;

and HomeMap end access inlets of all relevant users are arranged in all the sections, and the corresponding HomeMap ends are accessed through the access inlets for interaction.

As an optional implementation manner, in the second aspect of the present invention, the social platform further includes:

the rewarding module is used for sending energy elements with corresponding quantity to HomeMap ends of related users according to preset rewarding rules;

the rewarding rule comprises one or more of rewarding users who are selected to be recorded in the space distribution diagram setting-up case display area or the energy-saving scheme recommendation area, rewarding users with the number of the rewards exceeding a first preset value, and rewarding users with the number of the adopted schemes or the number of the praise exceeding a second preset value.

The third aspect of the invention discloses an energy consumption management device based on HomeMap and integrating social functions, which comprises:

A memory storing executable program code;

A processor coupled to the memory;

the processor invokes the executable program code stored in the memory to execute any of the HomeMap-based and fused social function energy consumption management methods disclosed in the first aspect of the present invention.

The fourth aspect of the present invention discloses a computer storage medium, where the computer storage medium stores computer instructions, where the computer instructions are used to execute any of the energy consumption management methods disclosed in the first aspect of the present invention based on HomeMap and integrated with social functions when the computer instructions are called.

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

In the embodiment of the invention, any intelligent equipment with a touch screen or a display screen can be set as HomeMap end, which brings convenience to users, a spatial distribution diagram of the whole-house controlled equipment is established through the HomeMap end, the position and the environment of each controlled equipment are shown in the spatial distribution diagram, each controlled equipment is controlled in the spatial distribution diagram through the operation of the identification of each controlled equipment, and the user can intuitively know the condition of each controlled equipment;

The HomeMap end can display energy elements to be collected of each controlled device on the spatial distribution map, a user collects the energy elements of each controlled device, and the collected energy elements can be used for exchanging rewards so as to prompt the user to pay more attention to the energy consumption condition in the home, and the initiative and the enthusiasm of the user can be greatly improved by exchanging rewards; moreover, the HomeMap end can be accessed to the social platform to access HomeMap ends of other users and the rewarding piece which is presented and exchanged, so that the users can communicate with other users in energy consumption management, the users learn excellent cases of energy-saving linkage scenes of other users, the rewarding pieces are presented mutually, the emotion of each other is improved, the learning of the knowledge of energy conservation and carbon reduction of families can be promoted mutually, and the energy-saving and environment-friendly consciousness of the users is greatly stimulated.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic flow diagram of an energy consumption management method based on HomeMap and integrating social functions according to an embodiment of the present invention;

FIG. 2 is a flow chart of another method for managing energy consumption based on HomeMap and incorporating social functions according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of an energy consumption management system based on HomeMap and incorporating social functions according to an embodiment of the present invention;

Fig. 4 is a schematic structural diagram of an energy consumption management device based on HomeMap and integrating social functions according to an embodiment of the present invention.

Detailed Description

In order that those skilled in the art will better understand the present invention, a technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in which it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The terms "comprising" and "having" and any variations thereof, in the description and claims, are intended to cover a non-exclusive inclusion. For example, a process, method, apparatus, article, or article that comprises a list of steps or elements is not limited to only those listed but may optionally include other steps or elements not listed or inherent to such process, method, article, or article.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment may be included in at least one embodiment of the invention. The appearances of such phrases in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. Those of skill in the art will explicitly and implicitly appreciate that the embodiments described herein may be combined with other embodiments.

The invention discloses an energy consumption management method and system based on HomeMap and integrating social functions, which can set any intelligent equipment with a touch screen or a display screen as a HomeMap end, bring convenience to users, establish a spatial distribution diagram of a whole-house controlled equipment through the HomeMap end, display the position and environment of each controlled equipment in the spatial distribution diagram, and control each controlled equipment in the spatial distribution diagram through operating the identification of each controlled equipment, thereby being beneficial to the users to intuitively know the condition of each controlled equipment;

The HomeMap end can display energy elements to be collected of each controlled device on the spatial distribution map, a user collects the energy elements of each controlled device, and the collected energy elements can be used for exchanging rewards so as to prompt the user to pay more attention to the energy consumption condition in the home, and the initiative and the enthusiasm of the user can be greatly improved by exchanging rewards; moreover, the HomeMap end can be accessed to the social platform to access HomeMap ends of other users and the rewarding piece which is presented and exchanged, so that the users can communicate with other users in energy consumption management, the users learn excellent cases of energy-saving linkage scenes of other users, the rewarding pieces are presented mutually, the emotion of each other is improved, the learning of the knowledge of energy conservation and carbon reduction of families can be promoted mutually, and the energy-saving and environment-friendly consciousness of the users is greatly stimulated.

In order to better understand the method and system for managing energy consumption based on HomeMap and integrating social functions described in the present invention, the HomeMap terminal and the controlled device are described first. The key of intelligent home is to set up the linkage scene of each intelligent device, linkage scene can exist a plurality of intelligent devices, exists one or more intelligent devices that can regard as centralized control equipment among a plurality of intelligent devices, and the intelligent device that can regard as centralized control equipment can realize the intelligent control to other intelligent devices, and it is to be noted that the intelligent device that is the centralized control equipment just is HomeMap the end, can be understood by other intelligent devices of HomeMap end control can understand as controlled equipment, and one HomeMap end can realize the intelligent control to a plurality of controlled equipment. Optionally, the application scenario may be an application scenario in which a plurality of intelligent home appliances exist, for example, an intelligent smoke extractor, an intelligent stove, an intelligent oven in a kitchen, and a linkage scenario between intelligent terminals remotely connected with the above devices, and further optionally, in the linkage scenario, besides a portable mobile terminal such as a mobile phone, a tablet, a computer, and the like, some intelligent devices with touch screens or display screens may also be used as the HomeMap end, for example, an intelligent sound box may be used as the HomeMap end, and the remaining intelligent home appliances may be used as controlled devices, so that intelligent control of the intelligent sound box on the remaining intelligent home appliances can be achieved, and further optionally, the intelligent sound box may be a large-screen intelligent sound box.

The method and system for managing energy consumption based on HomeMap and integrating social functions described in the present invention are described in detail below.

Example 1

Referring to fig. 1, fig. 1 is a flow chart of an energy consumption management method based on HomeMap and integrating social functions according to an embodiment of the present invention. The method described in fig. 1 may be applied to the HomeMap terminal, optionally, the HomeMap terminal may be capable of implementing control over a plurality of controlled devices, and further optionally, the HomeMap terminal may be one of a plurality of intelligent home devices and may be capable of implementing control over some or all of the remaining intelligent home devices. As shown in fig. 1, the energy consumption management method based on HomeMap and fusing social functions may include the following steps:

101. Establishing a spatial distribution diagram of each controlled device in a designated space to generate HomeMap ends, and controlling each controlled device through the identification of each controlled device in the HomeMap ends; after step 101 is completed, step 102 may be triggered to be performed; when step 101 is not completed, execution of step 101 may continue to be triggered.

In yet another alternative embodiment, the HomeMap end is generated by acquiring a house type diagram of a specified space and the position of each controlled device in the house type diagram, building the space distribution diagram, and displaying the identification of each controlled device at the position of each controlled device in the space distribution diagram.

The space distribution map is built by various methods, for example, intelligent equipment with path planning such as a sweeping robot; or obtaining a house type graph through a third party such as a house manufacturer, and then adding a device model into the obtained house type graph; or shooting the appointed space according to the user, and constructing in the existing model construction software according to the photo; or the user builds the model by selecting a proper room model and a proper equipment model from a preset database in the existing model building software;

In this embodiment, the HomeMap end is provided with an accessory database, where the accessory database includes one or more of a house type gallery, an equipment model gallery, and a background gallery, and the spatial distribution map is built by selecting an accessory in the accessory database. The accessory can be understood as any piece of model in the family pattern gallery, the equipment model gallery or the background gallery, such as a family pattern, an equipment model or a background map. Therefore, at the HomeMap end, the user can freely match the personalized spatial distribution diagram, and in the process of selecting matching, the user can know the attribute of each controlled device and some non-purchased intelligent devices with better energy conservation or better performance by checking the parameters of each device model, so that the user can optimize the performance of the intelligent devices at home. In some embodiments, the fitting may be configured not to be provided for free, and some of the fitting may be redeemed for energy elements to help encourage the user to collect energy elements.

102. And the HomeMap terminal collects the consumption of the resource index of each controlled device and generates energy elements of each controlled device according to the consumption of each controlled device according to a preset conversion rule.

In the embodiment of the invention, the resource index can be one or more, the resource indexes of different controlled devices can be the same or not the same or different, the resource index can be one or more of water, electricity, gas, liquid laundry detergent and dish washing block, the consumption of the resource index can be understood as the consumption or the consumption of the resource index, and the energy element can be displayed on the HomeMap end in any one of a plurality of forms such as bubbles, integral, stars, heart shapes and the like, so that a user can intuitively and vividly know the energy element to be collected of each controlled device in the space distribution diagram, and the consumption of the resource index of each controlled device can be comprehensively known.

It should be noted that, the conversion rule may be set by a developer or an administrator, and is pre-deployed at the HomeMap end and stored in the HomeMap end.

In an alternative embodiment, the conversion rule includes setting a unit consumption amount of the resource index of each controlled device, and the number of energy elements of the resource index of the controlled device is a ratio of a total consumption amount of the resource index of the controlled device to a corresponding unit consumption amount.

It should be noted that the unit consumption amounts between different controlled devices and between different resource indexes may be set to be the same or different. Preferably, the unit consumption amount between different controlled devices and between different resource indexes can be set to be different, and hierarchical management is performed, wherein the unit consumption amount of the controlled device with the higher energy consumption level is higher, so that the energy element generated by the controlled device with the higher energy consumption level is less under the condition of the same total consumption amount; more specifically, the unit consumption of electricity of the air conditioner is set to 1000, and the unit consumption of electricity of the electric cooker is set to 10, so that the energy elements generated by the electricity of the air conditioner are less under the condition that the total consumption is the same, thereby encouraging users to use more environment-friendly equipment.

In this optional embodiment, the conversion rule further includes a preset energy-saving task and a device optimization task, and whether the energy-saving task or the device optimization task is completed is determined by tracking the consumption change of the controlled device;

when the energy-saving task or the equipment optimizing task is completed, a preset number of energy elements are obtained.

Besides energy elements generated by the consumption of the controlled equipment, the HomeMap end also sets some energy-saving tasks or equipment optimizing tasks to be completed by a user, and the energy elements with corresponding quantity are formed when each energy-saving task or equipment optimizing task is completed; preferably, the number of energy elements available to complete the energy saving task or the device optimization task may be greater than the number of energy elements generated by the consumption of the controlled device, such as a number several times, thereby motivating the user to perform energy saving optimization on the controlled device.

103. And collecting energy elements of each controlled device at the HomeMap end, and exchanging rewards through the collected energy elements.

In the embodiment of the invention, the user can directly click the identification of each controlled device at the HomeMap end to collect energy elements, so that the user can know which resource index of which controlled device has large consumption and can be reminded of the user in a vivid way by clicking and other actions to form a memory in the collection process; optionally, the HomeMap end may also separately set an energy element acquisition interface, pop up a list to be acquired through a window, and click the identifier of each controlled device in the list to be acquired to acquire the energy element; alternatively, the HomeMap end may also set a statistics table of the generated number of energy elements separately, so that the user can check the change of the number of energy elements of each resource index of each controlled device in a preset period, and prompt the user to pay more attention to the energy consumption situation of the home. The rewarding pieces can be one or more of gold coins, commodities and coupons, and the quantity of energy elements corresponding to different rewarding pieces can be the same or different, so that a user is stimulated to collect the energy elements and know the energy consumption condition of the home.

104. The HomeMap ends of other users and the rewards exchanged for the gifts are accessed through the social platform.

In the embodiment of the invention, the user accesses the social platform through the HomeMap end to access the HomeMap end of other users and give the exchanged rewards, so that the user and other users can communicate with each other in energy consumption management, the user learns excellent cases of energy-saving linkage scenes of other users, and the rewards give the rewards to each other, thereby improving emotion of each other, promoting learning of energy-saving and carbon-reducing knowledge of families, and playing a great role in stimulating energy-saving and environment-friendly consciousness of the user. The social platform can be understood as a platform which is developed by a server independently, and can be an independent APP, a website or an applet such as a WeChat applet which is carried on the existing social platform.

In yet another optional embodiment, after the HomeMap end collects the consumption amounts of the resource indexes of the controlled devices, the method further includes:

Different resource indexes adopt lines with different colors to connect the related controlled devices together so as to generate different resource index paths, and the related controlled devices in the resource index paths are displayed in nodes;

displaying consumption and running states of each node in the resource index path;

counting and analyzing consumption and running conditions of each node of the resource index path to generate an optimization scheme;

when the optimization scheme is selected to be executed, a preset number of energy elements are obtained.

For example, a water link may be established and displayed at the HomeMap end using a blue line, the water link connecting each controlled device having a water resource indicator to form a water resource indicator path, wherein the water link displays the water consumption and the operational status of each node, including but not limited to one or more of a normal status, a fault status, and an alarm status, and the operational status includes but not limited to one or more of a node color change, a specific text display, and a node graphic change.

The HomeMap end generates an optimization scheme by counting and analyzing the consumption and the running condition of each node of the resource index path, and the generation method of the optimization scheme can be used for adjusting the power-on time periods of some controlled devices according to the habit and the work and rest of a user, so that the energy consumption is reduced; corresponding operation parameters of some controlled devices can be adjusted by comparing the operation parameters with preset standard indexes, so that the aim of energy saving and optimization is fulfilled; but also can automatically recommend energy-saving linkage scenes of some controlled devices to users. When the user selects to execute the optimization scheme, a preset number of energy elements can be obtained, so that the user is stimulated to perform energy saving optimization of the equipment.

Example two

Referring to fig. 2, fig. 2 is a flow chart of an energy consumption management method based on HomeMap and integrating social functions according to an embodiment of the present invention. The method described in fig. 2 may be applied to the HomeMap terminal, optionally, the HomeMap terminal may be capable of implementing control over a plurality of controlled devices, and further optionally, the HomeMap terminal may be one of a plurality of intelligent home devices and may be capable of implementing control over some or all of the remaining intelligent home devices. As shown in fig. 2, the method for managing energy consumption based on HomeMap and fusing social functions in step 104 of the first embodiment may include the following operations:

one of the operations 105 is: the user can select and access each layout of the social platform, wherein the layout of the social platform comprises one or more of a space distribution diagram setting-up case display area, a friend recommendation area, a space distribution diagram sharing area, an energy-saving scheme recommendation area and a friend interaction area;

and each section of the social platform is provided with HomeMap end access inlets of each related user, and the corresponding HomeMap end is accessed to interact through the access inlets.

It should be noted that, the space distribution diagram setting-up case display area is some space distribution diagram setting-up cases pushed by the system, which can be designed independently by a service provider or selected from the HomeMap ends by the system. The friend recommending area can select some users with high liveness as a recommended friend list according to the liveness of the users on the social platform, and can recommend friends to the users through big data analysis according to the types and hobbies habits of the users who want to be friends. The spatial distribution diagram sharing area is used for uploading the spatial distribution diagram of the user to the social platform through the HomeMap end of the user so as to allow other users to visit and communicate; the energy-saving scheme recommending area is a system which can select some equipment linkage schemes which are excellent in energy saving by analyzing the equipment energy consumption condition of HomeMap ends of each user, is favorable for the user to learn and reference the energy-saving schemes of other people, and improves the energy-saving and environment-friendly consciousness of the user. The friend interaction area provides one-to-one or one-to-many or many-to-many interaction communication between the user and the friends, wherein the interaction mode comprises but is not limited to giving rewards, text communication, voice or video communication.

And each section of the social platform is also provided with HomeMap end access inlets of each related user, and the corresponding HomeMap ends can be accessed to interact through the access inlets, such as giving rewards, leaving messages, adding friends and the like.

Yet another operation 106 is: in order to encourage more users to share in the social platform and optimize energy conservation of the intelligent device, the social platform sends a corresponding number of energy elements to HomeMap ends of related users according to a preset rewarding rule;

The rewarding rule comprises, but is not limited to, one or more of rewarding users with the number of rewards being given exceeding a first preset value, rewarding users with the number of rewards being given exceeding a second preset value, and rewarding users with the number of the rewards being adopted or the number of the rewards being prayed exceeding a second preset value, so that the activity of the users on the social platform is improved, more energy elements are earned, and the energy saving optimization scheme of the user is continuously improved.

It should be noted that, the rewarding rule may be set by a developer or manager and pre-deployed on the social platform.

Example III

Referring to fig. 3, fig. 3 is a schematic structural diagram of an energy consumption management system based on HomeMap and integrating social functions according to an embodiment of the present invention. The system described in fig. 3 may be applied to the HomeMap terminal, optionally, the HomeMap terminal may be capable of implementing control over a plurality of controlled devices, and further optionally, the HomeMap terminal may be one of a plurality of intelligent home devices and may be capable of implementing control over some or all of the remaining intelligent home devices. As shown in fig. 3, the system may include:

HomeMap, establishing a spatial distribution diagram of each controlled device in a designated space, and controlling each controlled device through the identification of each controlled device in the spatial distribution diagram;

More specifically, the user pattern diagram of the designated space and the positions of the controlled devices in the user pattern diagram are obtained, the space distribution diagram is built, and the identification of each controlled device is displayed at the position of each controlled device in the space distribution diagram, so that the HomeMap end is generated.

The HomeMap end comprises:

The energy element generating module 301 is configured to collect consumption amounts of resource indexes of the controlled devices, and generate energy elements of the controlled devices according to the consumption amounts of the resource indexes of the controlled devices according to a preset conversion rule;

the rewards exchanging module 302 is configured to collect energy elements of each controlled device, and exchange rewards through the collected energy elements;

The social platform is used for accessing HomeMap ends of other users and rewarding parts exchanged by the gifts.

In the embodiment of the invention, the HomeMap end can display the energy elements to be collected of each controlled device on the spatial distribution map, the user collects the energy elements of each controlled device, and the collected energy elements can be used for exchanging rewards, so that the user is promoted to pay more attention to the energy consumption condition in home, and the initiative and the enthusiasm of the user can be greatly improved by exchanging rewards; moreover, the HomeMap end can be accessed to the social platform to access HomeMap ends of other users and the rewarding piece which is presented and exchanged, so that the users can communicate with other users in energy consumption management, the users learn excellent cases of energy-saving linkage scenes of other users, the rewarding pieces are presented mutually, the emotion of each other is improved, the learning of the knowledge of energy conservation and carbon reduction of families can be promoted mutually, and the energy-saving and environment-friendly consciousness of the users is greatly stimulated.

In an alternative embodiment, the HomeMap end further includes:

the conversion rule module 303 is configured to set a unit consumption of the resource index of each controlled device, where the number of energy elements of the resource index of the controlled device is a ratio between a total consumption of the resource index of the controlled device and a corresponding unit consumption. The energy element generating module 301 converts the consumption of the resource index of each controlled device into energy elements according to the conversion rule module 303, so as to facilitate the collection of the user.

In the above optional embodiment, the conversion rule module 303 is further configured to preset an energy saving task and a device optimizing task, and determine whether to complete the energy saving task or the device optimizing task by tracking a consumption change of the controlled device; when the energy-saving task or the equipment optimizing task is completed, a preset number of energy elements are obtained.

In addition to the energy elements generated by the consumption of the controlled device, the conversion rule module 303 sets some energy-saving tasks or device optimization tasks, so that the user can complete the energy-saving tasks or device optimization tasks, and each energy-saving task or device optimization task can have a corresponding number of energy elements; preferably, the number of energy elements available to complete the energy saving task or the device optimization task may be greater than the number of energy elements generated by the consumption of the controlled device, such as a number several times, thereby motivating the user to perform energy saving optimization on the controlled device.

In yet another alternative embodiment, the HomeMap end further includes:

A building module 304 for building the spatial distribution map by selecting accessories from a preset accessory database including, but not limited to, one or more of a family gallery, a device model gallery, and a background gallery. In some embodiments, the fitting may be configured not to be provided for free, and some of the fitting may be redeemed for energy elements to help encourage the user to collect energy elements.

In yet another alternative embodiment, the HomeMap end further includes:

A resource index path generating module 305, configured to connect related controlled devices together by using lines with different colors for different resource indexes, so as to generate different resource index paths, where related controlled devices in the resource index paths are displayed by nodes; and displaying the consumption and the running state of each node in the resource index path;

The optimization scheme generating module 306 is configured to count and analyze consumption and operation conditions of each node of the resource indicator path, and generate an optimization scheme;

when the optimization scheme is selected to be executed, a preset number of energy elements are obtained.

The resource index path generation module 305 can learn the distribution of each resource index in the home and visually compare the consumption of each node. The generating method of the optimizing scheme generating module 306 can be to adjust the power-on time period of some controlled devices according to the habit and the work and rest of the user, so as to reduce the standby energy consumption; corresponding operation parameters of some controlled devices can be adjusted by comparing the operation parameters with preset standard indexes, so that the aim of energy saving and optimization is fulfilled; but also can automatically recommend energy-saving linkage scenes of some controlled devices to users. When the user selects to execute the optimization scheme, a preset number of energy elements can be obtained, so that the user is stimulated to perform energy saving optimization of the equipment.

In yet another alternative embodiment, the social platform further comprises:

The layout access module 307 is configured to enable a user to select and access each layout of the social platform, where the layout of the social platform includes, but is not limited to, one or more of a spatial distribution diagram setting up case display area, a friend recommendation area, a spatial distribution diagram sharing area, an energy saving scheme recommendation area, and a friendly interaction area;

setting HomeMap end access inlets of all relevant users in all sections, and entering corresponding HomeMap ends through the access inlets for interaction; the method is beneficial to improving the activity of the user on the social platform and improving the energy-saving optimization scheme of the user.

In yet another alternative embodiment, to encourage more users to share in the social platform and to power save optimization for smart devices, the social platform further includes:

The rewarding module 308 is configured to send a corresponding number of energy elements to HomeMap ends of related users according to a preset rewarding rule;

The rewarding rule comprises, but is not limited to, one or more of rewarding users with the number of rewards being given exceeding a first preset value, rewarding users with the number of rewards being given exceeding a second preset value, and rewarding users with the number of the rewards being adopted or the number of the rewards being prayed exceeding a second preset value, so that the activity of the users on the social platform is improved, more energy elements are earned, and the energy saving optimization scheme of the user is continuously improved.

Example IV

Referring to fig. 4, fig. 4 is a schematic structural diagram of an energy consumption management device based on HomeMap and integrating social functions according to an embodiment of the present invention. The apparatus described in fig. 4 may be applied to the HomeMap terminal, optionally, the HomeMap terminal may be capable of implementing control over a plurality of controlled devices, and further optionally, the HomeMap terminal may be one of a plurality of intelligent home devices and may be capable of implementing control over some or all of the remaining intelligent home devices. As shown in fig. 4, the energy consumption management device based on HomeMap and fusing social functions may include:

a memory 401 storing executable program codes;

A processor 402 coupled with the memory 401;

The processor 402 invokes executable program code stored in the memory 402 to perform some or all of the steps of the HomeMap-based and social function-fused energy consumption management method disclosed in either embodiment one or embodiment two of the present invention.

Example five

The embodiment of the invention discloses an intelligent household appliance which can be used for executing part or all of the steps in the energy consumption management method based on HomeMap and integrating social functions disclosed in the first embodiment or the second embodiment, or can comprise any of the energy consumption management systems or devices based on HomeMap and integrating social functions disclosed in the third embodiment or the fourth embodiment. It should be noted that, for the detailed description of the steps executed by the intelligent home appliance or the modules, devices and the like included in the intelligent home appliance, reference is made to the above embodiments, and the embodiments of the present invention are not repeated. Further, the intelligent household electrical appliance can be any intelligent household electrical appliance with a touch screen or a display screen, and further can be an intelligent refrigerator or an intelligent oven with a large screen.

Example six

The embodiment of the invention discloses a computer storage medium which stores computer instructions for executing the steps in the energy consumption management method based on HomeMap and fusing social functions disclosed in the first or second embodiment of the invention when the computer instructions are called.

The apparatus embodiments or system embodiments described above are merely illustrative, in which the modules illustrated as separate components may or may not be physically separate, and components shown as modules may or may not be physical modules, i.e., may be located in one place, or may be distributed over multiple network modules. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of this embodiment. Those of ordinary skill in the art will understand and implement the present invention without undue burden.

From the above detailed description of the embodiments, it will be apparent to those skilled in the art that the embodiments may be implemented by means of software plus necessary general hardware platforms, or of course by means of hardware. Based on such understanding, the foregoing technical solutions may be embodied essentially or in part in the form of a software product that may be stored in a computer-readable storage medium including Read-Only Memory (ROM), random access Memory (Random Access Memory, RAM), programmable Read-Only Memory (Programmable Read-Only Memory, PROM), erasable programmable Read-Only Memory (Erasable Programmable Read Only Memory, EPROM), one-time programmable Read-Only Memory (OTPROM), electrically erasable programmable Read-Only Memory (EEPROM), compact disc Read-Only Memory (Compact Disc Read-Only Memory, CD-ROM) or other optical disc Memory, magnetic disc Memory, tape Memory, or any other medium that can be used for computer-readable carrying or storing data.

Finally, it should be noted that: the embodiment of the invention discloses a HomeMap-based energy consumption management method and system integrating social functions, which are disclosed by the embodiment of the invention only as a preferred embodiment of the invention, and are only used for illustrating the technical scheme of the invention, but not limiting the technical scheme; although the invention has been described in detail with reference to the foregoing embodiments, those of ordinary skill in the art will understand that; the technical scheme recorded in the various embodiments can be modified or part of technical features in the technical scheme can be replaced equivalently; such modifications and substitutions do not depart from the spirit and scope of the corresponding technical solutions.

Claims (8)

1. A HomeMap-based energy consumption management method integrating social functions, the method comprising:

Establishing a spatial distribution diagram of each controlled device in a designated space to generate HomeMap ends, and controlling each controlled device through the identification of each controlled device in the HomeMap ends;

The HomeMap end collects consumption of the resource indexes of each controlled device and generates energy elements of each controlled device according to the consumption of the resource indexes of each controlled device according to a preset conversion rule;

Collecting energy elements of each controlled device at the HomeMap end, and exchanging rewards through the collected energy elements;

After the HomeMap end collects the consumption of the resource index of each controlled device, the method further includes: different resource indexes adopt lines with different colors to connect the related controlled devices together so as to generate different resource index paths, and the related controlled devices in the resource index paths are displayed in nodes;

displaying consumption and running states of each node in the resource index path;

Counting and analyzing consumption and running conditions of each node of the resource index path to generate an optimization scheme; the generation method of the optimization scheme is to adjust the power-on time period of the controlled equipment according to the habit and the work and rest of the user, or to adjust the corresponding operation parameters of the controlled equipment by comparing with the preset standard index; or automatically recommending the energy-saving linkage scene of the controlled equipment to the user;

when the optimization scheme is selected to be executed, a preset number of energy elements are obtained;

accessing HomeMap ends of other users and bonus pieces exchanged for gifts through a social platform, comprising:

The user selects and accesses each layout of the social platform, wherein the layout of the social platform comprises one or more of a space distribution diagram building case display area, a friend recommendation area, a space distribution diagram sharing area, an energy-saving scheme recommendation area and a friend interaction area; the energy-saving scheme recommending area is used for a system to select an equipment linkage scheme which is excellent in energy saving by analyzing the equipment energy consumption condition of HomeMap ends of each user;

Each section of the social platform is provided with HomeMap end access inlets of each related user, and the corresponding HomeMap ends are accessed to interact through the access inlets;

The friend interaction area provides one-to-one interaction communication or one-to-many interaction communication or many-to-many interaction communication between the user and the friends, and the interaction mode comprises giving rewards, text communication, voice communication or video communication.

2. The HomeMap-based and social function-integrated energy consumption management method according to claim 1, wherein generating energy elements of each controlled device according to consumption of resource indexes of each controlled device according to a preset conversion rule includes:

Setting unit consumption of the resource indexes of each controlled device, wherein the number of energy elements of the resource indexes of the controlled device is the ratio of the total consumption of the resource indexes of the controlled device to the corresponding unit consumption.

3. The HomeMap-based and social function-integrated energy consumption management method according to claim 2, wherein generating energy elements of each controlled device according to consumption of resource indexes of each controlled device according to a preset conversion rule, further comprises:

Presetting an energy-saving task and a device optimizing task, and judging whether the energy-saving task or the device optimizing task is finished or not by tracking the consumption change of the controlled device;

when the energy-saving task or the equipment optimizing task is completed, a preset number of energy elements are obtained.

4. The HomeMap-based and social-function-fused energy consumption management method according to claim 1, wherein the creating a spatial profile of each controlled device in a specified space to generate HomeMap side includes:

Acquiring a house type diagram of a designated space and the position of each controlled device in the house type diagram, establishing a space distribution diagram, and displaying the identification of each controlled device at the position of each controlled device in the space distribution diagram to generate the HomeMap end;

and the HomeMap end is provided with an accessory database, the accessory database comprises one or more of a house type drawing library, an equipment model library and a background drawing library, and the spatial distribution diagram is built by selecting accessories in the accessory database.

5. The HomeMap-based and converged social function energy consumption management method of claim 1, further comprising:

the social platform sends a corresponding number of energy elements to HomeMap ends of related users according to a preset rewarding rule;

the rewarding rule comprises one or more of rewarding users who are selected to be recorded in the space distribution diagram setting-up case display area or the energy-saving scheme recommendation area, rewarding users with the number of the rewards exceeding a first preset value, and rewarding users with the number of the adopted schemes or the number of the praise exceeding a second preset value.

6. A HomeMap-based and converged social function energy consumption management system, comprising:

HomeMap, establishing a spatial distribution diagram of each controlled device in a designated space, and controlling each controlled device through the identification of each controlled device in the spatial distribution diagram;

the HomeMap end comprises:

The energy element generation module is used for collecting the consumption of the resource index of each controlled device and generating energy elements of each controlled device according to the consumption of the resource index of each controlled device according to a preset conversion rule;

the rewarding piece exchange module is used for collecting energy elements of each controlled device and exchanging rewarding pieces through the collected energy elements;

The social platform is used for accessing HomeMap ends of other users and the rewards exchanged by the gifts;

The resource index path generation module is used for connecting the related controlled devices together by adopting different color lines to generate different resource index paths, wherein the related controlled devices in the resource index paths are displayed in a node mode; and displaying the consumption and the running state of each node in the resource index path;

the optimization scheme generation module is used for counting and analyzing the consumption and the running condition of each node of the resource index path to generate an optimization scheme; the generation method of the optimization scheme is to adjust the power-on time period of the controlled equipment according to the habit and the work and rest of the user, or to adjust the corresponding operation parameters of the controlled equipment by comparing with the preset standard index; or automatically recommending the energy-saving linkage scene of the controlled equipment to the user;

when the optimization scheme is selected to be executed, a preset number of energy elements are obtained;

the social platform further includes:

The layout access module is used for enabling a user to select and access each layout of the social platform, wherein the layout of the social platform comprises one or more of a space distribution diagram setting-up case display area, a friend recommendation area, a space distribution diagram sharing area, an energy-saving scheme recommendation area and a friend interaction area; the energy-saving scheme recommending area is used for a system to select an equipment linkage scheme which is excellent in energy saving by analyzing the equipment energy consumption condition of HomeMap ends of each user;

Setting HomeMap end access inlets of all relevant users in all sections, and entering corresponding HomeMap ends through the access inlets for interaction;

The friend interaction area provides one-to-one interaction communication or one-to-many interaction communication or many-to-many interaction communication between the user and the friends, and the interaction mode comprises giving rewards, text communication, voice communication or video communication.

7. HomeMap-based energy consumption management device integrating social functions, comprising:

A memory storing executable program code;

A processor coupled to the memory;

the processor invokes the executable program code stored in the memory to perform the HomeMap and converged social function based energy consumption management method of any one of claims 1-5.

8. A computer storage medium storing computer instructions which, when invoked, are operable to perform the HomeMap and converged social function based energy consumption management method of any one of claims 1 to 5.