CN114977202A - Intelligent kitchen electrical equipment network distribution method and system - Google Patents

Abstract

The invention relates to the technical field of digital information transmission, in particular to a network distribution method and a system for intelligent kitchen electrical equipment, which comprise the following steps: the control terminal is a main control end of the system and is used for sending out an execution command; the analysis module is used for analyzing the attribute parameters of the intelligent kitchen electrical equipment in the household power distribution grid; the evaluation module is used for evaluating the occupancy rate of the intelligent kitchen electrical equipment in the power configuration of the household power distribution grid; the marking module is used for obtaining the operation result of the evaluation module and marking the electric power branch trunk line corresponding to the electric power transmission line applied to the intelligent kitchen electric equipment; the intelligent kitchen electrical equipment system comprises a learning module and a power management module, wherein the learning module is used for learning the operation habit of a user for using the intelligent kitchen electrical equipment, and the power management module can acquire the connection relation and the working power of the current intelligent kitchen electrical equipment distributed in a circuit from the system, so that the user can acquire a certain amount of information for reference when using the intelligent kitchen electrical equipment, and the situations of household electrical load and circuit faults are avoided.

Description

Intelligent kitchen electrical equipment network distribution method and system

Technical Field

The invention relates to the technical field of digital information transmission, in particular to a network distribution method and system for intelligent kitchen electrical equipment.

Background

The intelligent kitchen electrical equipment is an intelligent kitchen electrical appliance product formed by leading a microprocessor and a computer into electrical equipment, and has the functions of actively monitoring self faults, actively controlling, actively adjusting and the like.

At present, along with the increasing of living standard of people, intelligent kitchen electrical equipment is more common in people's daily life, for convenient, people install intelligent kitchen electrical equipment at home, because the increase of intelligent kitchen electrical equipment, the produced load of family's circuit also grow thereupon, this leads to intelligent kitchen electrical equipment to use the electricity in the use and produces the potential safety hazard of certain degree, present intelligent kitchen electrical equipment is when the circuit is unusual, can cut off the emergence of the major accident of power prevention accident basically, but its problem does not really solve-if coordinate intelligent kitchen electrical equipment, make intelligent kitchen electrical equipment operate stably, the fault incidence reduces and approaches to zero.

Disclosure of Invention

Solves the technical problem

Aiming at the defects in the prior art, the invention provides an intelligent kitchen electrical equipment network distribution method and system, and solves the technical problems in the background technology.

Technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme:

in a first aspect, an intelligent kitchen electrical equipment distribution network system comprises:

the control terminal is a main control end of the system and is used for sending out an execution command;

the analysis module is used for analyzing the attribute parameters of the intelligent kitchen electrical equipment in the household power distribution grid;

the evaluation module is used for evaluating the occupancy rate of the intelligent kitchen electrical equipment in the power configuration of the household power distribution grid;

the marking module is used for obtaining the operation result of the evaluation module and marking the electric power branch trunk line corresponding to the electric power transmission line applied to the intelligent kitchen electric equipment;

the learning module is used for learning the operation habits of users on using the intelligent kitchen electrical equipment and generating an electric power transmission line configuration and modification scheme by referring to the operation habits of the users;

and the feedback module is used for receiving the power transmission line configuration and modification scheme generated in the learning module, packaging the power transmission line configuration and modification scheme and sending the packaged power transmission line configuration and modification scheme to the control terminal for a user to read.

Furthermore, the analyzing module for analyzing the intelligent kitchen electrical equipment attribute parameter content comprises: the intelligent kitchen electrical equipment is configured in an electric power transmission line in a household power distribution grid, an application scene of the intelligent kitchen electrical equipment and the operation load power of the intelligent kitchen electrical equipment.

Furthermore, a submodule is deployed in the analysis module, and includes:

the modeling unit is used for acquiring the configuration information of the intelligent kitchen electrical equipment application power transmission line in the analysis module and constructing an intelligent kitchen electrical equipment power transmission model by referring to the configuration information of the power transmission line;

the identification unit is used for receiving the intelligent kitchen electrical equipment power transmission model constructed in the modeling unit and acquiring a power branch trunk line in the intelligent kitchen electrical equipment power transmission model;

the computing unit is used for computing the theoretical maximum load power of a household power distribution grid where the intelligent kitchen electrical equipment is located;

when the computing unit is used for calculating the theoretical maximum load power of the household power distribution grid, the operation load power of the intelligent kitchen electrical equipment analyzed by the analysis module and the content of the electric power branch trunk line in the electric power transmission model of the intelligent kitchen electrical equipment obtained by the identification unit are synchronously obtained, the operation load power of the intelligent kitchen electrical equipment is led to the position in the corresponding electric power transmission model branch trunk line, and after the load power of the electric power branch trunk line is calculated, the theoretical maximum load power of the household power distribution grid is calculated by referring to the calculation result of the load power of the electric power branch trunk line.

Furthermore, when the evaluation module operates, the electric power branch trunk in the intelligent kitchen electrical equipment power transmission model identified in the identification unit is synchronously obtained, parameters and load power of the electric power branch trunk are analyzed, and then the occupancy rates of the electric power configuration of the electric power branch trunk and the intelligent kitchen electrical equipment deployed at the lower level of the electric power branch trunk in the household power distribution grid are carried out according to the load power of the electric power branch trunk.

Further, the marking module marks the content of the corresponding power branch trunk line of the power transmission line applied to the intelligent kitchen electrical equipment, and comprises the following steps: available power branch trunk lines and unavailable branch trunk lines;

the judgment of the availability of the electric power branch trunk line is based on the load power of the corresponding electric power branch trunk line and the load power comparison result of the intelligent kitchen electrical equipment deployed at the lower level of the electric power branch trunk line.

Furthermore, a sub-module is disposed in the learning module, and includes:

the recording unit is used for acquiring and recording the operation data content of the intelligent kitchen electrical equipment controlled by the user;

the extraction unit is used for extracting characteristic behavior data in the operation data content of the intelligent kitchen electrical equipment controlled by the user;

the input unit is used for inputting the newly added intelligent kitchen electrical equipment of the system and parameter information thereof;

the data content of the characteristic behavior of the intelligent kitchen electrical equipment controlled by the user to operate extracted by the extraction unit is the target and operation parameter data of the intelligent kitchen electrical equipment controlled to synchronously operate during the operation period of the intelligent kitchen electrical equipment controlled by the user;

the operation content of the extraction unit is used for generating a modification scheme of the power transmission line, the operation content of the input unit is used for generating a configuration scheme of the power transmission line, and the configuration scheme content of the power transmission line is that the intelligent kitchen electrical equipment use line is added to the original scheme of the circuit transmission line scheme.

Furthermore, the operation content of the extraction unit is synchronously fed back to the input unit, the operation content of the input unit and the receiving content stored in the input unit are synchronously sent to the marking module, the marking module operates again by taking the receiving data content as a trigger signal, and the marking of the power branch trunk is changed by referring to the received data content.

Furthermore, the control terminal is electrically connected with an analysis module through a medium, a modeling unit, an identification unit and a calculation unit are arranged in the analysis module through the medium, the analysis module is electrically connected with an evaluation module, a marking module and a learning module through the medium, a recording unit, an extraction unit and an input unit are arranged in the learning module through the medium, the input unit is connected with the marking module through the medium, the evaluation module is connected with the identification unit through the medium, and the learning module is electrically connected with a feedback module through the medium.

In a second aspect, a network distribution method for intelligent kitchen electrical equipment comprises the following steps:

step 1: analyzing the configuration circuit and the power configuration occupancy rate of the intelligent kitchen electrical equipment in the current household power distribution grid;

step 2: capturing an electric power branch trunk line of the intelligent kitchen electric equipment in a household power distribution grid, and matching the corresponding electric power branch trunk line according to the intelligent kitchen electric equipment configuration route line;

step 3: calculating the operation parameters of the corresponding power branch trunk line according to the power configuration occupancy rate of the intelligent kitchen electrical equipment;

step 4: obtaining the operation parameter calculation result of the power branch main line in Step3, and analyzing the operation cycle of the intelligent kitchen electrical equipment connected under the power branch main line;

step 5: performing overlapping judgment on the operation cycle of the intelligent kitchen electrical equipment by referring to the operation cycle of the intelligent kitchen electrical equipment, and identifying the electric power branch trunk line corresponding to the intelligent kitchen electrical equipment with the overlapped operation cycle;

step 6: and providing an intelligent kitchen electrical equipment configuration circuit coordination scheme to the user side according to the identification result in Step5, so that the number of the intelligent kitchen electrical equipment overlapped in the operation period of the connection under the power branch trunk line is more than or equal to 1 and less than or equal to 2.

Further, the determination index ratio of overlapping determination of the intelligent kitchen electrical equipment operation cycle in Step5 is that the equipment operation time length overlapping part time length is greater than or equal to 95%.

Advantageous effects

Compared with the known public technology, the technical scheme provided by the invention has the following beneficial effects:

1. the invention provides an intelligent kitchen electrical equipment distribution network system for power configuration of intelligent kitchen electrical equipment, through which a user can obtain the connection relation and working power of the current intelligent kitchen electrical equipment distributed in a circuit from the system, so that the user can obtain a certain amount of information for reference when using the intelligent kitchen electrical equipment, thereby avoiding the occurrence of household power load and circuit failure.

2. According to the system, through further learning, the characteristic habits of a user in operating the intelligent kitchen electrical equipment can be obtained, and through recording, analysis and learning, the coordination configuration of the intelligent kitchen electrical equipment connecting circuit can be generated, and through the method, a reasonable installation position can be provided when the new intelligent kitchen electrical equipment is installed, so that the new intelligent kitchen electrical equipment using circuit is distributed, and the overload state of the circuit caused by the installation and the use of the new intelligent kitchen electrical equipment is prevented.

3. The invention provides an intelligent kitchen electrical equipment distribution network method, which is used for further assisting an intelligent kitchen electrical equipment distribution network system to optimize the circuit connection of intelligent kitchen electrical equipment and ensuring that the intelligent kitchen electrical equipment distributed on an electric power branch line in a circuit is more uniform, so that the electric power output of a household circuit is effectively controlled, and the electricity utilization process of the intelligent kitchen electrical equipment is safer and more stable.

Drawings

In order to more clearly illustrate the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the invention, and that for a person skilled in the art, other drawings can be derived from them without inventive effort.

Fig. 1 is a schematic structural diagram of an intelligent kitchen electrical equipment distribution network system;

FIG. 2 is a schematic flow chart of a network distribution method for intelligent kitchen electrical equipment;

the reference numerals in the drawings denote: 1. a control terminal; 2. an analysis module; 21. a modeling unit; 22. an identification unit; 23. a calculation unit; 3. an evaluation module; 4. a marking module; 5. a learning module; 51. a recording unit; 52. an extraction unit; 53. an input unit; 6. and a feedback module.

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 described clearly and completely with reference to the accompanying drawings. It is to be understood that the embodiments described are only a few embodiments of the present invention, and not all embodiments. 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.

The present invention will be further described with reference to the following examples.

Example 1

The intelligent kitchen electrical equipment distribution network system of this embodiment, as shown in fig. 1, includes:

the control terminal 1 is a main control end of the system and is used for sending out an execution command;

the analysis module 2 is used for analyzing the attribute parameters of the intelligent kitchen electrical equipment in the household power distribution grid;

the evaluation module 3 is used for evaluating the occupancy rate of the intelligent kitchen electrical equipment in the power configuration of the household power distribution grid;

the marking module 4 is used for obtaining the operation result of the evaluation module 3 and marking the electric power branch trunk corresponding to the electric power transmission line applied to the intelligent kitchen electric equipment;

the learning module 5 is used for learning the operation habits of users using the intelligent kitchen electrical equipment and generating an electric power transmission line configuration and modification scheme by referring to the operation habits of the users;

and the feedback module 6 is configured to receive the configuration and modification scheme of the power transmission line generated in the learning module 5, package the configuration and modification scheme of the power transmission line, and send the packaged configuration and modification scheme to the control terminal 1 for a user to read.

As shown in fig. 1, the analyzing the contents of the intelligent kitchen electrical equipment attribute parameters in the analyzing module 2 includes: the intelligent kitchen electrical equipment is configured in an electric power transmission line in a household power distribution grid, an application scene of the intelligent kitchen electrical equipment and the operation load power of the intelligent kitchen electrical equipment.

In this embodiment, the control terminal 1 controls the analysis module 2 to run and analyze the attribute parameters of the smart kitchen electrical equipment in the home power distribution grid, the evaluation module 3 evaluates the occupancy rate of the smart kitchen electrical equipment in the power configuration of the home power distribution grid, the synchronous marking module 4 runs in the rear to obtain the running result of the evaluation module 3, marks the power transmission line applied by the smart kitchen electrical equipment corresponding to the power branch trunk line, the learning module 5 runs and learns the operation habits of the smart kitchen electrical equipment used by the user in real time, generates the power transmission line configuration and modification scheme by referring to the operation habits of the user, and finally receives the power transmission line configuration and modification scheme generated in the learning module 5 through the feedback module 6, packs the power transmission line configuration and modification scheme, and sends the packed power transmission line configuration and modification scheme to the control terminal 1 for the user to read.

As shown in fig. 1, the analysis module 2 is deployed with sub-modules, including:

the modeling unit 21 is used for acquiring configuration information of an intelligent kitchen electrical equipment application power transmission line in the analysis module 2, and constructing an intelligent kitchen electrical equipment power transmission model by referring to the configuration information of the power transmission line;

the identification unit 22 is configured to receive the intelligent kitchen electrical equipment power transmission model constructed in the modeling unit 21, and obtain an electric power branch trunk line in the intelligent kitchen electrical equipment power transmission model;

the calculating unit 23 is used for calculating the theoretical maximum load power of the household power distribution grid where the intelligent kitchen electrical equipment is located;

when the calculating unit 23 calculates the theoretical maximum load power of the home power distribution network, the operation load power of the intelligent kitchen electrical equipment analyzed by the analyzing module 2 and the content of the power branch trunk in the power transmission model of the intelligent kitchen electrical equipment acquired by the identifying unit 22 are synchronously acquired, the operation load power of the intelligent kitchen electrical equipment is led to the position in the corresponding power transmission model branch trunk, and after the calculation of the load power of the power branch trunk is performed, the theoretical maximum load power of the home power distribution network is calculated by referring to the calculation result of the load power of the power branch trunk.

By setting, an intelligent kitchen electrical equipment power transmission model can be constructed through the sub-module modeling unit 21 in the operation process of the analysis module 2, the identification unit 22 identifies and obtains power branch lines in the intelligent kitchen electrical equipment power transmission model, and finally the calculation unit 23 operates to calculate the theoretical maximum load power of the household power distribution network where the intelligent kitchen electrical equipment is located, so that the intelligent kitchen electrical equipment is provided with sufficient data support in the subsequent power distribution and management process, and the effect of maintaining the stable operation of the system is achieved.

Example 2

In a specific implementation aspect, on the basis of embodiment 1, this embodiment further specifically describes the intelligent kitchen electrical equipment distribution network system in embodiment 1 with reference to fig. 1:

as shown in fig. 1, when the evaluation module 3 operates, the power branch trunk in the power transmission model of the smart kitchen electrical device identified in the identification unit 22 is synchronously obtained, and after the parameters and the load power of the power branch trunk are analyzed, the occupancy rates of the power branch trunk and the smart kitchen electrical device deployed at the lower level thereof in the household power distribution grid are configured according to the load power of the power branch trunk.

As shown in fig. 1, the marking module 4 includes, for the power transmission line corresponding to the power branch trunk marking content applied to the intelligent kitchen electrical equipment: available power branch trunk lines and unavailable branch trunk lines;

the judgment of the availability of the electric power branch trunk line is based on the load power of the corresponding electric power branch trunk line and the load power comparison result of the intelligent kitchen electrical equipment deployed at the lower level of the electric power branch trunk line.

So set up and to further generate heat and acquire whether intelligent kitchen electrical equipment circuit installed accords with and satisfies intelligent kitchen electrical equipment user demand to mark it, so that when follow-up new intelligent kitchen electrical equipment installs, through the mode of reference mark, new intelligent kitchen electrical equipment mounted position of selection more quick.

As shown in fig. 1, the learning module 5 has sub-modules disposed therein, including:

the recording unit 51 is used for acquiring and recording the operation data content of the intelligent kitchen electrical equipment controlled by the user;

the extracting unit 52 is used for extracting characteristic behavior data in the operation data content of the intelligent kitchen electrical equipment controlled by the user;

the input unit 53 is used for inputting the newly added intelligent kitchen electrical equipment of the system and parameter information thereof;

the data content of the characteristic behavior of the user controlled intelligent kitchen electrical equipment extracted in the extraction unit 52 is the target and the operation parameter data of the intelligent kitchen electrical equipment which is controlled to synchronously operate during the operation period of the user controlled intelligent kitchen electrical equipment;

the extraction unit 52 operates the content for generating the power transmission line modification scheme, and the input unit 53 operates the content for generating the power transmission line configuration scheme, wherein the content of the power transmission line configuration scheme is to add the intelligent kitchen electrical equipment use line to the original scheme of the power transmission line scheme.

As shown in fig. 1, the extracting unit 52 operates content synchronization feedback to the input unit 53, the input unit 53 operates content and received content stored therein and transmits the content to the marking module 4 in synchronization, the marking module 4 operates again by receiving data content as a trigger signal, and the power branch/trunk marking is changed with reference to the received data content.

By means of the setting, when the circuit deployment cannot meet the requirement of operation of the intelligent kitchen electrical equipment and when new intelligent kitchen electrical equipment needs to be installed, the system can design the coordination scheme of the circuit and the installation position of the new intelligent kitchen electrical equipment independently, so that the capacity of installing and deploying the intelligent kitchen electrical equipment by the circuit can be exerted to the maximum extent.

As shown in fig. 1, the control terminal 1 is electrically connected to an analysis module 2 through a medium, a modeling unit 21, an identification unit 22 and a calculation unit 23 are disposed in the analysis module 2 in the medium, the analysis module 2 is electrically connected to an evaluation module 3, a marking module 4 and a learning module 5 through the medium, a recording unit 51, an extraction unit 52 and an input unit 53 are disposed in the learning module 5 in the medium, the input unit 53 is electrically connected to the marking module 4 through the medium, the evaluation module 3 is electrically connected to the identification unit 22 through the medium, and the learning module 5 is electrically connected to a feedback module 6 through the medium.

Example 3

In a specific implementation aspect, on the basis of embodiment 1, this embodiment further specifically describes the intelligent kitchen electrical equipment distribution network system in embodiment 1 with reference to fig. 2:

an intelligent kitchen electrical equipment network distribution method comprises the following steps:

step 1: analyzing the configuration circuit and the power configuration occupancy rate of the intelligent kitchen electrical equipment in the current household power distribution grid;

step 2: capturing an electric power branch trunk line of the intelligent kitchen electric equipment in a household power distribution grid, and matching the corresponding electric power branch trunk line according to the intelligent kitchen electric equipment configuration route line;

step 3: calculating the operation parameters of the corresponding power branch trunk line according to the power configuration occupancy rate of the intelligent kitchen electrical equipment;

step 4: obtaining the operation parameter calculation result of the power branch main line in Step3, and analyzing the operation cycle of the intelligent kitchen electrical equipment connected under the power branch main line;

step 5: performing overlapping judgment on the operation cycle of the intelligent kitchen electrical equipment by referring to the operation cycle of the intelligent kitchen electrical equipment, and identifying the electric power branch trunk line corresponding to the intelligent kitchen electrical equipment with the overlapped operation cycle;

step 6: and providing an intelligent kitchen electrical equipment configuration circuit coordination scheme to the user side according to the identification result in Step5, so that the number of the intelligent kitchen electrical equipment overlapped in the operation period of the connection under the power branch trunk line is more than or equal to 1 and less than or equal to 2.

As shown in fig. 2, the determination index ratio for overlapping determination of the smart kitchen electrical appliance operation cycle in Step5 is that the appliance operation time length overlap portion time length is equal to or greater than 95%.

In summary, in the above embodiments, a user of the system can obtain, from the system, the connection relationship and the working power of the current intelligent kitchen electrical equipment distributed in the circuit, so that the user can obtain a certain amount of information for the user to use for reference when using the intelligent kitchen electrical equipment, thereby avoiding the occurrence of household electrical load and circuit failure; meanwhile, the system can acquire characteristic habits of a user in operating the intelligent kitchen electrical equipment for use through further learning, can generate coordination configuration of the intelligent kitchen electrical equipment connecting circuit through recording, analysis and learning, and can provide reasonable installation positions when new intelligent kitchen electrical equipment is installed, so that the new intelligent kitchen electrical equipment using circuit is distributed, and the overload state of the circuit caused by the installation and use of the new intelligent kitchen electrical equipment is prevented; and still further supplementary intelligence kitchen electrical equipment distribution network system optimizes the circuit connection of intelligence kitchen electrical equipment, guarantees that the intelligent kitchen electrical equipment that distributes on the electric power branch trunk line in the circuit is more even to thereby control the electric power output of family's circuit effectively, make the power consumption process of intelligence kitchen electrical equipment safer, stable.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the corresponding technical solutions.

Claims (10)

1. The utility model provides an intelligence kitchen electrical equipment distribution network system which characterized in that includes:

the control terminal (1) is a main control end of the system and is used for sending out an execution command;

the analysis module (2) is used for analyzing the attribute parameters of the intelligent kitchen electrical equipment in the household power distribution grid;

the evaluation module (3) is used for evaluating the occupancy rate of the intelligent kitchen electrical equipment in the power configuration of the household power distribution grid;

the marking module (4) is used for obtaining the operation result of the evaluation module (3) and marking the electric power branch trunk corresponding to the electric power transmission line applied to the intelligent kitchen electric equipment;

the learning module (5) is used for learning the operation habits of users on using the intelligent kitchen electrical equipment and generating an electric power transmission line configuration and modification scheme by referring to the operation habits of the users;

and the feedback module (6) is used for receiving the configuration and the modification scheme of the power transmission line generated in the learning module (5), packaging the configuration and the modification scheme of the power transmission line and sending the packaged configuration and modification scheme to the control terminal (1) for a user to read.

2. The intelligent kitchen electrical equipment distribution network system according to claim 1, wherein the analyzing module (2) analyzes the contents of the attribute parameters of the intelligent kitchen electrical equipment comprises: the intelligent kitchen electrical equipment is used for configuring an electric power transmission line in a household power distribution grid, an application scene of the intelligent kitchen electrical equipment and the operation load power of the intelligent kitchen electrical equipment.

3. The intelligent kitchen electrical equipment distribution network system according to claim 1, wherein the analysis module (2) is provided with sub-modules, and the sub-modules comprise:

the modeling unit (21) is used for acquiring the configuration information of the intelligent kitchen electrical equipment application power transmission line in the analysis module (2) and constructing an intelligent kitchen electrical equipment power transmission model by referring to the configuration information of the power transmission line;

the identification unit (22) is used for receiving the intelligent kitchen electrical equipment power transmission model constructed in the modeling unit (21) and acquiring a power branch trunk line in the intelligent kitchen electrical equipment power transmission model;

the calculating unit (23) is used for calculating the theoretical maximum load power of a household power distribution grid where the intelligent kitchen electrical equipment is located;

when the calculating unit (23) operates and calculates the theoretical maximum load power of the household power distribution grid, the operation load power of the intelligent kitchen electrical equipment analyzed by the analyzing module (2) and the content of the electric power branch trunk line in the electric power transmission model of the intelligent kitchen electrical equipment obtained by the identifying unit (22) are synchronously obtained, the operation load power of the intelligent kitchen electrical equipment is led to the position in the corresponding electric power transmission model branch trunk line, and after the calculation of the load power of the electric power branch trunk line is carried out, the calculation of the theoretical maximum load power of the household power distribution grid is carried out by referring to the calculation result of the load power of the electric power branch trunk line.

4. The intelligent kitchen electrical equipment distribution network system according to claim 1, wherein when the evaluation module (3) operates, the power branch trunk in the intelligent kitchen electrical equipment power transmission model identified by the identification unit (22) is synchronously obtained, and after parameters and load power of the power branch trunk are analyzed, the occupancy rates of the power branch trunk and the intelligent kitchen electrical equipment deployed at the lower level thereof in the household distribution grid are configured according to the load power of the power branch trunk.

5. The intelligent kitchen electrical equipment distribution network system according to claim 1, wherein the marking module (4) marks the content of the power transmission line corresponding to the power branch trunk line applied to the intelligent kitchen electrical equipment, and comprises: available power branch trunk lines and unavailable branch trunk lines;

the available judgment of the electric power branch trunk line is based on the load power of the corresponding electric power branch trunk line and the load power comparison result of the intelligent kitchen electrical equipment deployed at the lower level of the electric power branch trunk line.

6. The intelligent kitchen electrical equipment distribution network system according to claim 1, wherein a sub-module is deployed in the learning module (5) and comprises:

the recording unit (51) is used for acquiring and recording the operation data content of the intelligent kitchen electrical equipment controlled by the user;

the extraction unit (52) is used for extracting characteristic behavior data in the operation data content of the intelligent kitchen electrical equipment controlled by the user;

the input unit (53) is used for inputting the newly added intelligent kitchen electrical equipment of the system and parameter information thereof;

the data content of the characteristic behavior of the intelligent kitchen electrical equipment controlled by the user and operated by the user extracted by the extraction unit (52) is the target and operation parameter data of the intelligent kitchen electrical equipment controlled to synchronously operate during the operation period of the intelligent kitchen electrical equipment controlled by the user;

the operation content of the extraction unit (52) is used for generating a power transmission line modification scheme, the operation content of the input unit (53) is used for generating a power transmission line configuration scheme, and the power transmission line configuration scheme is formed by adding an intelligent kitchen electrical equipment use line to an original scheme of a circuit transmission line scheme.

7. The distribution network system of intelligent kitchen electrical equipment according to claim 6, wherein the operation content of the extraction unit (52) is synchronously fed back to the input unit (53), the operation content of the input unit (53) and the received content stored in the input unit are synchronously sent to the marking module (4), the marking module (4) operates again by receiving the data content as a trigger signal, and the marking of the power branch trunk is changed by referring to the received data content.

8. The intelligent kitchen electrical equipment distribution network system according to claim 1, the control terminal (1) is electrically connected with an analysis module (2) through a medium, a modeling unit (21), a recognition unit (22) and a calculation unit (23) are electrically deployed in the analysis module (2) through the medium, the analysis module (2) is electrically connected with an evaluation module (3), a marking module (4) and a learning module (5) through media, the medium in the learning module (5) is electrically disposed with a recording unit (51), an extraction unit (52) and an input unit (53), the input unit (53) is electrically connected with the marking module (4) through a medium, the evaluation module (3) is electrically connected with the identification unit (22) through a medium, the learning module (5) is electrically connected with a feedback module (6) through a medium.

9. An intelligent kitchen electrical equipment distribution network method, which is an implementation method of the intelligent kitchen electrical equipment distribution network system according to any one of claims 1-8, and is characterized by comprising the following steps:

step 1: analyzing the configuration circuit and the power configuration occupancy rate of the intelligent kitchen electrical equipment in the current household power distribution grid;

step 2: capturing an electric power branch trunk line of the intelligent kitchen electric equipment in a household power distribution grid, and matching the corresponding electric power branch trunk line according to the intelligent kitchen electric equipment configuration route line;

step 3: calculating the operation parameters of the corresponding power branch trunk line according to the power configuration occupancy rate of the intelligent kitchen electrical equipment;

step 4: obtaining the operation parameter calculation result of the power branch main line in Step3, and analyzing the operation cycle of the intelligent kitchen electrical equipment connected under the power branch main line;

step 5: performing overlapping judgment on the operation cycle of the intelligent kitchen electrical equipment by referring to the operation cycle of the intelligent kitchen electrical equipment, and identifying the electric power branch trunk line corresponding to the intelligent kitchen electrical equipment with the overlapped operation cycle;

step 6: and providing an intelligent kitchen electrical equipment configuration circuit coordination scheme to the user side according to the identification result in Step5, so that the number of the intelligent kitchen electrical equipment overlapped in the operation period of the connection under the power branch trunk line is more than or equal to 1 and less than or equal to 2.

10. The intelligent kitchen electrical equipment distribution network method according to claim 9, wherein the ratio of the determination indexes for overlapping determination of the operation periods of the intelligent kitchen electrical equipment in Step5 is that the overlapping time length of the operation time lengths of the equipment is greater than or equal to 95%.

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