CN115002177A - Internet of things control method and system of intelligent kitchen electrical system - Google Patents

Abstract

The invention relates to the technical field of signal data transmission, in particular to an Internet of things control method and system of an intelligent kitchen electrical system, which comprises the following steps: loading the system into a kitchen electrical equipment application network, acquiring online kitchen electrical equipment in the network, and generating a kitchen electrical equipment control directory to feed back to a user side; the method comprises the steps that a user side receives a kitchen electrical equipment control directory, and after the operation state of the kitchen electrical equipment is checked, the kitchen electrical equipment is selected to send a control command; setting an application data repository, and selecting kitchen electrical equipment at a user side to send a control command until the operation of the corresponding kitchen electrical equipment is finished, and recording the operation data of the kitchen electrical equipment and the operation content of the user side; according to the invention, the operation habits of the user can be obtained through the long-time operation of the kitchen electrical equipment, and the user operation characteristics are extracted from the obtained operation habits of the user for learning, so that along with the long-time use of the kitchen electrical equipment, the intelligence of the kitchen electrical equipment is improved to a certain extent, and better use experience is brought to the user.

Description

Internet of things control method and system of intelligent kitchen electrical system

Technical Field

The invention relates to the technical field of signal data transmission, in particular to an Internet of things control method and system of an intelligent kitchen electrical system.

Background

The intelligent kitchen electrical appliance is an intelligent kitchen electrical appliance product formed after a microprocessor and computer skills are introduced into electrical appliances, and has the functions of actively monitoring self faults, actively controlling, actively adjusting and the like.

Although the development of economy, people's standard of life improves gradually, corresponding also corresponding gradual improvement to the intelligent demand of consumer, especially common is intelligent house, but the most high part of frequency is used during the intelligent kitchen electrical equipment in intelligent house, nevertheless current intelligent kitchen electricity still needs manual control, mostly does not accomplish the operation that long-range intelligent degree is higher, therefore can see, the intelligent degree of intelligent kitchen electricity improves the space and still has great vacancy.

Disclosure of Invention

Solves the technical problem

Aiming at the defects in the prior art, the invention provides the Internet of things control method and the Internet of things control system of the intelligent kitchen power system, and solves the problems that the existing intelligent kitchen power system still needs manual control and does not operate in a remote intelligent degree to a higher degree, so that the intelligent degree of the intelligent kitchen power system is improved, and the space still has large spare space.

Technical scheme

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

in a first aspect, a method for controlling an internet of things of an intelligent kitchen electrical system comprises the following steps:

step 1: loading the system into a kitchen electrical equipment application network, acquiring online kitchen electrical equipment in the network, and generating a kitchen electrical equipment control directory to feed back to a user side;

step 2: the method comprises the steps that a user side receives a kitchen electrical equipment control directory, and after the operation state of the kitchen electrical equipment is checked, the kitchen electrical equipment is selected to send a control command;

step 3: setting an application data repository, and selecting kitchen electrical equipment at a user side to send a control command until the operation of the corresponding kitchen electrical equipment is finished, and recording the operation data of the kitchen electrical equipment and the operation content of the user side;

step 4: feeding back the relevant operation data of the kitchen electrical equipment stored in the application data repository to the user side, and operating the stored data again after the user side receives the feedback by the application data repository;

step 5: acquiring the user side associated data content stored in the application data repository, and analyzing the control behavior characteristics of the kitchen electrical equipment controlled by the user side;

step 6: and (4) carrying out adaptive coordination on the operational instructions of the kitchen electrical equipment by the corresponding kitchen electrical equipment according to the analysis content of the user behavior characteristics in the analysis configuration of the behavior characteristics of the kitchen electrical equipment controlled by the user side and the corresponding kitchen electrical equipment.

Further, the substep Step1 is deployed with a substep Step 11: analyzing the running state of the kitchen electrical equipment, collecting the kitchen electrical equipment with a material feeding function in the kitchen electrical equipment, and acquiring the storage capacity of a storage bin of the corresponding kitchen electrical equipment;

the contents of the kitchen electrical equipment data acquired in Step11 are marked in the corresponding kitchen electrical equipment in the kitchen electrical equipment control directory generated in Step1, and are received in Step 2.

Further, in Step3, the data content stored in the application data repository configured includes: the kitchen electrical equipment operation setting instruction data, the user side login system monitoring kitchen electrical equipment operation state content data, the user side regulation and control kitchen electrical equipment operation instruction data during the kitchen electrical equipment operation period, and the corresponding timestamps of the kitchen electrical equipment and the user side characteristic activities.

Further, Step5 is executed by using the running time of rerunning the stored data after receiving the feedback at the user end for the application data repository in Step4 as a trigger command, and the trigger command is set initially to run for rerunning the stored data for the application data repository three times.

Further, a sub-Step 31 is deployed between Step3 and Step 6: constructing a remote rule engine of the kitchen electrical equipment, setting triggering event content and triggering event characteristics to be matched with the engine, capturing operation and running behaviors of the kitchen electrical equipment and a user side, which accord with the triggering event content and the time characteristics, in real time, and driving the engine to start by taking the operation and running behaviors as triggering signals;

wherein, the Step31 data participate in the execution of the steps 4, Step5, Step6 and Step 61.

Further, the Step6 is deployed with a sub-Step 61: deploying a refresh cycle, re-executing Step3 again after each refresh cycle is finished, and using data stored in a data storage bank as basic data in a preposed mode;

wherein, Step61 is executed according to the user end setting.

In a second aspect, an internet of things control system of an intelligent kitchen electrical system comprises:

the control terminal is a main control end of the system, and a user sends out an execution command;

the management module is used for providing a data interaction channel transmission control instruction for the equipment management unit and the user management unit;

the driving module is used for receiving a command of a user side for driving the kitchen electric equipment and controlling the corresponding kitchen electric equipment to start and operate;

the monitoring module is used for monitoring whether the running state of the current kitchen electrical equipment in the running process is normal or not;

the feedback module is used for receiving the kitchen electrical equipment operation data of the operation state monitored by the monitoring module and sending the kitchen electrical equipment operation data to the user side;

the braking module is used for controlling the kitchen electrical equipment to stop running;

and the operation triggering condition of the braking module is that the user side autonomously controls the operation.

Furthermore, the management module is disposed with sub-modules, including:

the equipment management unit is used for managing the operation control of the kitchen electric equipment loaded into the system;

and the user management unit is used for managing the identity information of the system user and providing the control authority of the corresponding kitchen electrical equipment of the system user.

Furthermore, whether the operation state of the kitchen electrical equipment monitored in the monitoring module is normal or not is determined according to the stability of the operation process of the kitchen electrical equipment, the difference between the operation result and the preset operation result, and the power of the operation process of the kitchen electrical equipment.

Furthermore, the control terminal is electrically connected with the management module through a medium, an equipment management unit and a user management unit are electrically deployed in the management module through the medium, and the management module is electrically connected with the driving module, the monitoring module, the feedback module and the braking module through the medium.

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 Internet of things control method of an intelligent kitchen electrical system, which is used for daily operation of intelligent kitchen electrical equipment.

2. The intelligent kitchen electrical equipment maintenance system has high applicability and can be adaptively configured to the combined operation of one or more intelligent kitchen electrical equipment, meanwhile, when the system is deployed in the use process of the intelligent kitchen electrical equipment, a maintenance function is provided for the intelligent kitchen electrical equipment, and through a mode of monitoring and matching with emergency braking, when the intelligent kitchen electrical equipment breaks down, the intelligent kitchen electrical equipment can be timely and correspondingly treated, so that the situation that the kitchen electrical equipment is further damaged due to the failure is avoided.

3. The invention provides an Internet of things control system of an intelligent kitchen electrical system, which is used for the operation of intelligent kitchen electrical equipment.

Drawings

In order to more clearly illustrate the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the description of 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 flow chart of an Internet of things control method of an intelligent kitchen electrical system;

FIG. 2 is a schematic structural diagram of an Internet of things control system of an intelligent kitchen electrical system;

FIG. 3 is a schematic diagram illustrating basic concepts of system architecture design logic construction according to the present invention;

the reference numerals in the drawings represent: 1. a control terminal; 2. a management module; 21. a device management unit; 22. a user management unit; 3. a drive module; 4. a monitoring module; 5. a feedback module; 6. and a brake 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 internet of things control method of the intelligent kitchen electrical system in the embodiment is shown in fig. 1 and comprises the following steps:

step 1: loading the system into a kitchen electrical equipment application network, acquiring online kitchen electrical equipment in the network, and generating a kitchen electrical equipment control directory to feed back to a user side;

step 2: the method comprises the steps that a user side receives a kitchen electrical equipment control directory, and after the operation state of the kitchen electrical equipment is checked, the kitchen electrical equipment is selected to send a control command;

step 3: setting an application data repository, and selecting kitchen electrical equipment at a user side to send a control command until the operation of the corresponding kitchen electrical equipment is finished, and recording the operation data of the kitchen electrical equipment and the operation content of the user side;

step 4: feeding back the relevant operation data of the kitchen electrical equipment stored in the application data repository to the user side, and operating the stored data again after the user side receives the feedback by the application data repository;

step 5: acquiring the user side associated data content stored in the application data repository, and analyzing the control behavior characteristics of the kitchen electrical equipment controlled by the user side;

step 6: and (4) carrying out adaptive coordination on the operational instructions of the kitchen electrical equipment by the corresponding kitchen electrical equipment according to the analysis content of the user behavior characteristics in the analysis configuration of the behavior characteristics of the kitchen electrical equipment controlled by the user side and the corresponding kitchen electrical equipment.

Example 2

In a specific implementation level, on the basis of embodiment 1, this embodiment further specifically describes the method for controlling the internet of things of the intelligent kitchen electrical system in embodiment 1 with reference to fig. 1:

as shown in fig. 1, Step1 has a substep Step 11: analyzing the running state of the kitchen electrical equipment, collecting the kitchen electrical equipment with a material feeding function in the kitchen electrical equipment, and acquiring the storage capacity of a storage bin of the corresponding kitchen electrical equipment;

the contents of the kitchen electrical equipment data acquired in Step11 are marked to the corresponding kitchen electrical equipment in the kitchen electrical equipment control list generated in Step1, and are received in Step 2.

By means of the arrangement, when the Step2 is used for controlling the intelligent kitchen electrical equipment to operate, the intelligent kitchen electrical equipment cannot be operated due to influence factors except faults.

As shown in fig. 1, in Step3, the data content stored in the application data repository includes: the kitchen electrical equipment operation setting instruction data, the user side login system monitoring kitchen electrical equipment operation state content data, the user side operation instruction data for controlling the kitchen electrical equipment during the kitchen electrical equipment operation period, and the corresponding timestamps of the kitchen electrical equipment and the user side characteristic activities.

As shown in fig. 1, Step5 is executed by using the running time of rerunning the stored data after receiving the feedback at the user end for the application data repository in Step4 as a trigger command, and the trigger command age set initially is run for rerunning the stored data for the application data repository three times.

Through this setting, intelligence kitchen electrical equipment is using to the certain time after, the behavior of intelligence kitchen electrical equipment can be known by feedback to the user side, the user side knows the back, further use kitchen electrical equipment, if there is still not the change of using the behavioral characteristic custom, then this type of use custom can be remembered by intelligence kitchen electrical equipment and study promptly, thereby make intelligence kitchen electrical equipment after studying, can be to the coordination of autonomic internal program that carries on, thereby make kitchen electrical equipment's operation tend to intelligence gradually, accord with user's use custom.

As shown in fig. 1, a sub-Step 31 is deployed between Step3 and Step 6: constructing a remote rule engine of the kitchen electrical equipment, setting triggering event content and triggering event characteristics to be matched with the engine, capturing operation and running behaviors of the kitchen electrical equipment and a user side according with the triggering event content and the time characteristics in real time, and driving the engine to start by taking the operation and running behaviors as triggering signals;

wherein, the Step31 data participate in the execution of the steps 4, Step5, Step6 and Step 61.

Through this setting, when breaking down in intelligence kitchen electrical equipment operation process, the judgement that intelligence kitchen electrical equipment can be autonomic feeds back the problem that will appear to the user side or between start intelligence kitchen electrical equipment stop operation to the maintenance effect of certain degree has been brought for kitchen electrical equipment.

As shown in fig. 1, the Step6 is deployed with a sub-Step 61 at the lower level: deploying a refresh cycle, re-executing Step3 again after each refresh cycle is finished, and using data stored in a data storage bank as basic data in a preposed mode;

wherein, Step61 is executed by user according to the user end setting.

The intelligent kitchen electrical equipment can further improve the intelligence of the intelligent kitchen electrical equipment, and meanwhile, conditions of the intelligent kitchen electrical equipment and multiple users are provided, so that the intelligent kitchen electrical equipment can be continuously reset and refreshed in the actual application process, and behavior characteristic habits of users are captured and used for learning.

Example 3

In a specific implementation level, on the basis of embodiment 1, this embodiment further specifically describes the internet of things control method of the intelligent kitchen electrical system in embodiment 1 with reference to fig. 2:

an internet of things control system of an intelligent kitchen electrical system, as shown in fig. 2, includes:

the control terminal 1 is a main control end of the system, and a user sends an execution command;

the management module 2 is used for providing a data interaction channel transmission control instruction for the equipment management unit 21 and the user management unit 22;

the driving module 3 is used for receiving a command of driving the kitchen electrical equipment from a user side and controlling the corresponding kitchen electrical equipment to start and operate;

the monitoring module 4 is used for monitoring whether the operation state of the current kitchen electrical equipment in the operation process is normal or not;

the feedback module 5 is used for receiving the kitchen electrical equipment operation data of the operation state monitored by the monitoring module 4 and sending the kitchen electrical equipment operation data to the user side;

the braking module 6 is used for controlling the kitchen electrical equipment to stop running;

the operation triggering condition of the braking module 6 is that the user side autonomously controls operation.

In this embodiment, the control terminal 1 controls the management module 2 to operate and provide the device management unit 21 and the user management unit 22, so as to transmit the control command through the data interaction channel, so that the driving module 3 receives a command of driving the kitchen electrical device by the user end, controls the corresponding kitchen electrical device to start and operate, synchronously monitors whether the operation state of the current kitchen electrical device in the operation process is normal by the monitoring module 4, feeds back the monitoring data to the user end through the feedback module 5, and controls the braking module 6 to control the kitchen electrical device to stop operating when the system and the user end fail.

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

an equipment management unit 21 for managing operation control of the kitchen electrical equipment loaded into the system;

and the user management unit 22 is used for managing the identity information of the system user and providing the control authority of the corresponding kitchen electrical equipment of the system user.

As shown in fig. 2, whether the operation state of the kitchen electrical equipment monitored in the monitoring module 4 is normal or not is determined according to the stability of the operation process of the kitchen electrical equipment, the difference between the operation result and the predetermined operation result, and the power of the operation process of the kitchen electrical equipment.

As shown in fig. 2, the control terminal 1 is electrically connected to the management module 2 through a medium, the management module 2 is electrically disposed with an equipment management unit 21 and a user management unit 22 in the medium, and the management module 2 is electrically connected to the driving module 3, the monitoring module 4, the feedback module 5 and the braking module 6 through the medium.

In summary, in the implementation of the method in this embodiment, the kitchen electrical equipment can acquire the operation habits of the user through long-time operation, and extract the user operation characteristics from the acquired operation habits of the user to learn, so that along with the long-time use of the kitchen electrical equipment, the intelligence of the kitchen electrical equipment is improved to a certain extent, thereby bringing better use experience to the user; meanwhile, when the intelligent kitchen electrical equipment monitoring system is used, the intelligent kitchen electrical equipment monitoring system has high applicability, can be adaptively configured to the combined operation of one or more intelligent kitchen electrical equipment, also provides a maintenance function for the intelligent kitchen electrical equipment when the system is deployed in the use process of the intelligent kitchen electrical equipment, can timely and correspondingly handle the problem kitchen electrical equipment when the intelligent kitchen electrical equipment fails in a mode of monitoring and matching with emergency braking, and avoids the occurrence of the condition that the kitchen electrical equipment is further damaged due to failure; in addition, through the deployment of the system in the embodiment, the operation state of the intelligent kitchen electrical equipment in the operation process can be concerned by the user in real time, so that the working content of the intelligent kitchen electrical equipment can be known by the user in real time, and the purpose of maintaining the stable operation of the intelligent kitchen electrical equipment is achieved.

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 or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. The Internet of things control method of the intelligent kitchen electrical system is characterized by comprising the following steps:

step 1: loading the system into a kitchen electrical equipment application network, acquiring online kitchen electrical equipment in the network, and generating a kitchen electrical equipment control directory to feed back to a user side;

step 2: the user side receives the kitchen electrical equipment control directory, and selects the kitchen electrical equipment to send a control command after checking the running state of the kitchen electrical equipment;

step 3: setting an application data repository, and selecting kitchen electrical equipment at a user side to send a control command until the operation of the corresponding kitchen electrical equipment is finished, and recording the operation data of the kitchen electrical equipment and the operation content of the user side;

step 4: feeding back the relevant operation data of the kitchen electrical equipment stored in the application data repository to the user side, and operating the stored data again after the user side receives the feedback by the application data repository;

step 5: acquiring the user side associated data content stored in the application data repository, and analyzing the control behavior characteristics of the kitchen electrical equipment controlled by the user side;

step 6: and (4) performing analysis configuration on the behavior characteristics of the kitchen electrical equipment controlled by the user side and corresponding kitchen electrical equipment, and performing adaptive coordination on the operational instructions of the kitchen electrical equipment by the corresponding kitchen electrical equipment according to the analysis content of the behavior characteristics of the user.

2. The Internet of things control method of an intelligent kitchen electrical system as claimed in claim 1, wherein Step1 is implemented with the substep of Step 11: analyzing the running state of the kitchen electrical equipment, collecting the kitchen electrical equipment with a material feeding function in the kitchen electrical equipment, and acquiring the storage capacity of a storage bin of the corresponding kitchen electrical equipment;

the contents of the kitchen electrical equipment data acquired in Step11 are marked to the corresponding kitchen electrical equipment in the kitchen electrical equipment control list generated in Step1, and are received in Step 2.

3. The internet of things control method of an intelligent kitchen electrical system as claimed in claim 1, wherein Step3, the Step of storing data content in the application data repository comprises: the kitchen electrical equipment operation setting instruction data, the user side login system monitoring kitchen electrical equipment operation state content data, the user side regulation and control kitchen electrical equipment operation instruction data during the kitchen electrical equipment operation period, and the corresponding timestamps of the kitchen electrical equipment and the user side characteristic activities.

4. The internet of things control method of an intelligent kitchen electrical system as claimed in claim 1, wherein Step5 is executed by using the running time of re-running the stored data after the feedback is received at the user end for the application data repository in Step4 as the trigger command control, and the trigger command aging set initially runs three times for the application data storage to re-run the stored data.

5. The Internet of things control method of an intelligent kitchen electrical system as claimed in claim 1, wherein a substep Step31 is deployed between Step3 and Step 6: constructing a remote rule engine of the kitchen electrical equipment, setting triggering event content and triggering event characteristics to be matched with the engine, capturing operation and running behaviors of the kitchen electrical equipment and a user side, which accord with the triggering event content and the time characteristics, in real time, and driving the engine to start by taking the operation and running behaviors as triggering signals;

wherein, the Step31 data participate in the execution of the steps 4, Step5, Step6 and Step 61.

6. The Internet of things control method of an intelligent kitchen electrical system as claimed in claim 1, wherein the Step6 is deployed at a lower level with a sub-Step 61: deploying a refresh cycle, re-executing Step3 again after each refresh cycle is finished, and using data stored in a data storage bank as basic data in a preposed mode;

wherein, Step61 is executed by user according to the user end setting.

7. An internet of things control system of an intelligent kitchen electrical system, the system implementing the internet of things control method of the intelligent kitchen electrical system as set forth in claim 1, comprising:

the control terminal (1) is a main control end of the system, and a user sends an execution command;

the management module (2) is used for providing a data interaction channel transmission control instruction of the equipment management unit (21) and the user management unit (22);

the driving module (3) is used for receiving a command of a user side for driving the kitchen electric equipment and controlling the corresponding kitchen electric equipment to start and operate;

the monitoring module (4) is used for monitoring whether the running state of the current kitchen electrical equipment in the running process is normal or not;

the feedback module (5) is used for receiving the kitchen electrical equipment operation data of the operation state monitored by the operation of the monitoring module (4) and sending the kitchen electrical equipment operation data to the user side;

the braking module (6) is used for controlling the kitchen electric equipment to stop running;

the operation triggering condition of the braking module (6) is that the user side autonomously controls the operation.

8. The IOT control system of an intelligent kitchen electrical system as claimed in claim 7, wherein the management module (2) has disposed therein sub-modules including:

the equipment management unit (21) is used for managing the operation control of the kitchen electric equipment loaded into the system;

and the user management unit (22) is used for managing the identity information of the system user and providing the control authority of the corresponding kitchen electrical equipment of the system user.

9. The IOT control system of an intelligent kitchen electrical system according to claim 7, wherein the operating state of the kitchen electrical equipment monitored in the monitoring module (4) is determined according to the stability of the operation process of the kitchen electrical equipment, the difference between the operation result and the preset operation result, and the power of the operation process of the kitchen electrical equipment.

10. The IOT control system of an intelligent kitchen electrical system as claimed in claim 7, wherein said control terminal (1) is electrically connected to the management module (2) through a medium, said management module (2) is electrically disposed with a device management unit (21) and a user management unit (22), and said management module (2) is electrically connected to the driving module (3), the monitoring module (4), the feedback module (5) and the braking module (6) through a medium.

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