CN113007751B - Kitchen range matching system and kitchen range matching method - Google Patents

Abstract

The application discloses a kitchen range matching system and a kitchen range matching method, and relates to the field of intelligent home. The cooker matching system comprises a main control terminal, at least one cooker and at least one cooker, wherein the main control terminal can match received first preset fire data sent by the at least one cooker through a 5G communication module with first to-be-verified fire data sent by the at least one cooker through the 5G communication module, and pair the first preset fire data successfully matched with the cooker and the cooker corresponding to the first to-be-verified fire data, so that the matching performance of the cooker and the cooker in the use process is ensured.

Description

Kitchen range matching system and kitchen range matching method

Technical Field

The application relates to the field of intelligent home, in particular to a kitchen range matching system and a kitchen range matching method.

Background

At present, the intelligent of a kitchen is realized mainly by adopting independent individual intelligent equipment, such as an intelligent electric cooker, an intelligent microwave oven and the like, and the intelligent matching function of any pot and stove during matching use is lacked, so that when cooking is carried out, the kitchen problems caused by mismatching of the pot and the stove are more and more.

Disclosure of Invention

In view of the above problems, embodiments of the present application provide a cooktop matching system and a cooktop matching method, which are specifically as follows.

In a first aspect, embodiments of the present application provide a cooktop matching system, including a master control terminal, at least one cooktop, and at least one cooktop:

the cooker is used for heating at least one cooker according to first preset fire data, and the first preset fire data is sent to the main control terminal through a 5G communication module arranged on the cooker;

at least one pot is used for detecting fire data in the heating process, taking the fire data as first fire data to be verified, and sending the first fire data to be verified to the main control terminal through a 5G communication module arranged on the pot;

the main control terminal is used for matching at least one received first preset fire data with at least one first fire data to be verified, and matching the successfully matched first preset fire data with a cooker and a pot corresponding to the first fire data to be verified.

Further, as an alternative implementation manner, when the first preset fire data and the first to-be-verified fire data which are successfully matched exist, using a stove and a pot corresponding to the first preset fire data and the first to-be-verified fire data which are successfully matched as a target stove and a target pot respectively;

the main control terminal is also used for generating second preset fire data and sending the second preset fire data to the target kitchen range;

the target cooker is also used for heating the target cooker according to the received second preset fire data;

the target cooker is also used for detecting fire data in the heating process and sending the fire data to the main control terminal as second fire data to be verified;

the main control terminal is further used for carrying out secondary matching on the received second thermal data to be verified and the second preset thermal data, and pairing the target kitchen range and the target cooker when the second preset thermal data and the second thermal data to be verified are successfully matched.

Further, as an alternative implementation manner, the kitchen range further comprises a controller, a kitchen range, a pressure sensor arranged on the kitchen range and a fire switch for controlling the fire state;

the controller is respectively connected with the main control terminal, the pressure sensor, the fire switch and the 5G communication module;

the pressure sensor is used for detecting a pressure value on the kitchen range and sending the pressure value to the controller;

the controller is used for comparing the received pressure value with a first preset value, controlling the fire switch to be turned on according to first preset fire data when the pressure value is larger than the first preset value so as to heat a cooker on the cooking range, and sending the first preset fire data to the main control terminal through the 5G communication module; and

the controller is also used for receiving second preset fire data sent by the main control terminal and adjusting the fire switch according to the second preset fire data so as to heat the cooker.

Further, as an alternative implementation manner, a temperature sensor for detecting fire data and a boiling-over detection sensor for detecting a boiling-over state in the cooker are arranged on the cooker;

the temperature sensor and the boiling-over detection sensor are respectively connected with the 5G communication module and are used for sending detection results to the main control terminal through the 5G communication module.

Further, as an alternative implementation, the cooking range includes a plurality of heating areas thereon; the pot is provided with a plurality of temperature sensor groups corresponding to the heating areas one by one, and each temperature sensor group is used for detecting thermal data of the corresponding heating area.

Further, as an alternative implementation, the boil-over detection sensor includes a vibration sensor or/and a humidity sensor disposed on the pan.

In a second aspect, embodiments of the present application further provide a cooktop matching method, applied to a master control terminal in a cooktop matching system, where the method includes:

receiving first preset fire data sent by at least one kitchen range through a 5G communication module;

receiving first to-be-verified fire data which is detected by at least one pot in the heating process and sent by a 5G communication module;

and matching the first preset fire data with the first fire data to be verified, and matching the successfully matched first preset fire data with a cooker and a pot corresponding to the first fire data to be verified.

Further, as an alternative implementation manner, when there is the first preset fire data and the first to-be-verified fire data that are successfully matched, the method further includes:

generating second preset fire data and sending the second preset fire data to a target cooking appliance so that the target cooking appliance heats a target cooker positioned on a cooking range according to the second preset fire data, wherein the target cooking appliance and the target cooker correspond to the first preset fire data and the first to-be-verified fire data which are successfully matched;

receiving second thermal power data to be verified, which is detected by the target pot in the heating process and is sent by the 5G communication module;

and performing secondary comparison on the second preset fire data and the second fire data to be verified, and executing the step of pairing the first preset fire data successfully matched with the cooker and the pot corresponding to the first fire data to be verified when the matching is successful.

Further, as an alternative implementation, the method further includes:

when the first preset fire data and the first to-be-verified fire data are successfully matched, or the second preset fire data and the second to-be-verified fire data are successfully matched, a matching success signal is generated and fed back to the cooker, so that the cooker heats the cooker according to a preset heating program;

and when the first preset fire data and the first to-be-verified fire data fail to be matched, or the second preset fire data and the second to-be-verified fire data fail to be matched, generating a heating stopping signal and feeding the heating stopping signal back to the cooker, so that the cooker stops heating the cooker based on the heating stopping signal.

Further, as an alternative implementation, the method further includes:

receiving a boiling-over signal detected by the cookers and sent by a 5G communication module;

and generating a fire control signal according to the boiling-over signal and sending the fire control signal to a cooker matched with the cooker, so that the cooker adjusts the fire state in the current heating process based on the fire control signal.

The above-mentioned at least one technical scheme that this application adopted can reach following beneficial effect:

through the ingenious design to cooking utensils matching system, the cooking utensils can be through the 5G communication module with be used for the first firepower data transmission of predetermineeing of pan heating to master control terminal, the pan can be through the 5G communication module with detect first firepower data transmission to master control terminal, and then make master control terminal can pair the cooking utensils according to first firepower data of predetermineeing and first firepower data of predetermineeing of receiving to the kitchen problem emergence that causes because of pot, kitchen mismatch have been avoided.

In addition, the method and the device utilize the communication characteristics of low time delay and high speed of 5G communication, effectively improve the data transmission efficiency in the cooking appliance matching process, and further ensure the kitchen safety.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered limiting the scope, and that other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a block diagram of a cooktop matching system provided by an embodiment of the present application.

Fig. 2 is a schematic diagram of distribution states of pressure sensors on a stove according to an embodiment of the present application.

Fig. 3 is a schematic diagram of a distribution state of a heating area on a stove according to an embodiment of the present application.

Fig. 4 is a schematic diagram of a distribution state of temperature sensors on a pot according to an embodiment of the present application.

Fig. 5 is a schematic flow chart of a cooking appliance matching method provided in an embodiment of the present application.

Fig. 6 is another flow chart of a cooking appliance matching method provided in an embodiment of the present application.

Detailed Description

For the purposes of making the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments. The components of the embodiments of the present application, which are generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present application, as provided in the accompanying drawings, is not intended to limit the scope of the application, as claimed, but is merely representative of selected embodiments of the application. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without making any inventive effort, are intended to be within the scope of the present application.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.

Example 1

As shown in fig. 1, in the stove matching system provided in the embodiment of the present application, the stove matching system may include a main control terminal, at least one stove, and at least one pot. In order to improve the data transmission efficiency and reduce the data transmission time delay, the timeliness of the data transmission of the cooker matching system in the data matching process is effectively ensured, and the kitchen safety problem caused by untimely data transmission is avoided. Therefore, the main control terminal, the at least one kitchen range and the at least one cooker provided by the embodiment can be provided with the 5G communication module, so that data interaction is realized based on the 5G communication module, and data transmission efficiency is ensured.

In some possible implementations, the at least one cooktop may be configured to heat the at least one cooktop according to the first preset fire data, and to send the first preset fire data to the master terminal through a 5G communication module disposed on the cooktop.

Alternatively, the stove may be a gas stove, an electric stove, or the like. As a possible implementation manner, the stove provided in this embodiment may include a controller, a cooking range, and a pressure sensor and a fire switch for controlling a fire state, which are disposed on the cooking range, where the controller is used to be connected to the main control terminal, the pressure sensor, the fire switch, and the 5G communication module, respectively.

The pressure sensor is used for detecting the pressure value on the kitchen range and sending the pressure value to the controller. As a possible implementation manner, the pressure sensors may be multiple and distributed at the position where the cooker contacts the cooker, etc. In actual implementation, the controller can comprehensively judge whether the position of the cooker on the cooker is moderate or not according to the pressure values detected by the pressure sensors through the arrangement of the pressure sensors, if yes, the position is left or right, and the like.

For example, referring to fig. 2 in combination, assuming that 4 pressure sensors are uniformly distributed on the cooktop, in performing pressure detection, only two or three pressure sensors detect pressure values, it may be determined that the position of the cooktop located on the cooktop is not moderate. It should be noted that "O" in fig. 2 represents a pressure sensor.

Further, the controller is used for comparing the received pressure value with a first preset value, controlling a fire switch to be turned on according to first preset fire data when the pressure value is larger than the first preset value so as to heat a cooker positioned on the cooking range, and sending the first preset fire data to the main control terminal through the 5G communication module; in addition, the controller can also be used for receiving second preset fire data sent by the main control terminal and adjusting a fire switch according to the second preset fire data so as to heat the cooker. The size of the first preset fire data may be designed according to the requirement, for example, may be randomly generated by the controller, etc., and the implementation is not limited herein.

In addition, it should be noted that if the controller judges that the position of the pan on the kitchen range is not moderate according to the received pressure values sent by the pressure sensors, the controller can also be used for controlling the fire switch to be turned off so as to stop heating the pan or alarm, thereby ensuring the safety of the kitchen.

Further, at least one pot is used for detecting fire data in the heating process, and the fire data is used as first fire data to be verified, and the first fire data to be verified is sent to the main control terminal through a 5G communication module arranged on the pot.

Optionally, a temperature sensor for detecting fire data and a boiling-over detection sensor for detecting a boiling-over state in the pan are provided on the pan. The temperature sensor and the boiling-over detection sensor are respectively connected with the 5G communication module and are used for sending detection results to the main control terminal through the 5G communication module.

The actual type, arrangement, etc. of the temperature sensor and the boiling-over detection sensor can be set as required. For example, when the cooking range includes a plurality of heating areas shown in fig. 3, for example, an area a, an area B, an area C, and an area D, as shown in fig. 4, the cooker may be provided with a plurality of temperature sensor groups corresponding to the heating areas one by one, and each temperature sensor group is used for detecting thermal data of the corresponding heating area. The accuracy of the cooking range matching result can be further improved through the arrangement of a plurality of heating areas. As shown in fig. 4, each sensor group may include, but is not limited to, 4 temperature sensors E.

For another example, the boil-over detection sensor may include a vibration sensor or/and a humidity sensor disposed on the cookware. As an implementation manner, considering that when the liquid in the pan is in a boiling-over state, the pan will vibrate under the drive of the liquid, so that the vibration sensor can be arranged in the pan to detect the vibration state of the pan to judge whether the boiling-over phenomenon occurs.

As another implementation, considering that when the liquid in the pot is in a boiling-over state, the edge of the pot may have the liquid converted from vapor to liquid, the humidity sensor may be disposed at the edge of the pot to detect the humidity at the edge of the pot to determine whether the boiling-over phenomenon occurs.

It can be appreciated that the cookware, cooking appliance and main control device provided in this embodiment may be, but are not limited to, those described above. For example, the kitchen range may further include a touch panel connected to the controller, etc., and the touch panel is used for inputting control information, such as starting heating, adjusting the heating power/the heating power, etc., which is not particularly limited in this embodiment.

Further, the main control terminal is used for matching at least one received first preset fire data with at least one first fire data to be verified, and matching the successfully matched first preset fire data with a cooker and a pot corresponding to the first fire data to be verified.

In addition, if the first preset fire data and the first fire data to be verified which are successfully matched exist, the main control terminal can also be used for generating second preset fire data and sending the second preset fire data to the corresponding kitchen range so as to realize secondary verification according to the received second fire data to be verified, which is detected and sent by the cookware, and further ensure the accuracy of the matching/pairing result.

Optionally, in the present application, the master control terminal may process pairing between a plurality of cookers and a plurality of cookers simultaneously. Optionally, the main control terminal is used as core processing equipment of the cooker matching system and used for realizing data processing, instruction receiving and transmitting and the like. In this embodiment, the master control terminal may be a mobile phone, a computer, an IPAD, etc.

From the technical scheme given above, it can be seen that: the technical scheme provided by the application has at least the following technical effects:

(1) Through the ingenious design of the cooker matching system, the cooker can send first preset fire data for heating the cooker to the main control terminal through the 5G communication module, and the cooker can send the detected first fire data to the main control terminal through the 5G communication module, so that the main control terminal pairs the cooker according to the received first preset fire data and the first fire data to be checked, and kitchen problems caused by mismatching of the cooker and the cooker are avoided.

In addition, the method and the device utilize the communication characteristics of low time delay and high speed of 5G communication, effectively ensure the data transmission efficiency in the cooking appliance matching process, and further ensure the kitchen safety.

(2) Considering that the population aging of China is more and more serious, the old living alone is more and more, and meanwhile, kitchen problems caused by improper operation are more and more, the kitchen range matching system provided by the application has high intelligence, is simple to operate, and is more suitable for the old to operate, so that the kitchen problems are reduced.

Example two

Based on the cooker matching system provided in the first embodiment, a cooker matching method applied to the master control terminal in the cooker matching system is provided in the second embodiment. As shown in fig. 5, the method for matching the kitchen range is specifically implemented by hardware or/and software in a main control terminal, and the main control terminal may be, but is not limited to, a mobile phone, a computer, a server, a wearable device, etc. Referring to fig. 5, the cooktop matching method may include the following steps.

S10, receiving first preset fire data sent by at least one kitchen range through the 5G communication module.

S20, receiving first to-be-verified fire data which is detected by at least one pot in the heating process and sent by the 5G communication module.

S30, matching the first preset fire data with the first fire data to be verified, and matching the successfully matched first preset fire data with the cooker and the pot corresponding to the first fire data to be verified.

It can be appreciated that, regarding the kitchen range, the cooker, the main control terminal, the first fire data, etc., reference may be made to the detailed description in the first embodiment, and the detailed description of this embodiment is omitted here.

Further, in order to improve the accuracy of the matching result and ensure the safety of the kitchen range in the use process, when the matching result given in the foregoing S10 to S30 is that there is the first preset fire data and the first to-be-verified fire data that are successfully matched, the kitchen range matching method may further include the following.

And S40, generating second preset fire data and sending the second preset fire data to the target kitchen range so that the target kitchen range heats the target cooker positioned on the kitchen range according to the second preset fire data. The target kitchen range and the target cooker correspond to first preset fire data and first to-be-verified fire data which are successfully matched.

S50, receiving second heat data to be verified, which is detected by the target pot in the heating process and sent by the 5G communication module.

S60, performing secondary comparison on the second preset fire data and the second fire data to be verified, and executing the step of matching the first preset fire data successfully matched with the cooker and the pot corresponding to the first fire data to be verified in S30 when the matching is successful.

The second preset fire data can be flexibly designed according to requirements, for example, the second preset fire data can be randomly generated by a main control terminal and the like so as to be used for carrying out secondary verification on the matching performance between cookers, for example, the second preset fire data can be larger than the first preset fire data and can be smaller than the first fire data and the like.

Further, in practical implementation, in order to ensure kitchen safety and improve user experience, the kitchen range matching method can further comprise the following two implementation modes.

(1) When the first preset fire data and the first to-be-checked fire data are successfully matched, or the second preset fire data and the second to-be-checked fire data are successfully matched, the main control terminal generates a matching success signal and feeds the matching success signal back to the cooker, so that the cooker heats the cooker according to a preset heating program (such as a rice cooking program, a soup cooking program and the like).

(2) When the first preset fire data and the first to-be-verified fire data fail to be matched, or when the second preset fire data and the second to-be-verified fire data fail to be matched, a heating stopping signal is generated and fed back to the cooker, so that the cooker stops heating the cooker based on the heating stopping signal.

Further, as one possible implementation manner, the cooktop matching method provided by the application can further include S70 and S80.

S70, receiving a boiling-over signal which is detected by the cookers and sent by the 5G communication module.

And S80, generating a fire control signal according to the boiling-over signal and sending the fire control signal to a cooker matched with the cooker, so that the cooker adjusts the fire state in the current heating process based on the fire control signal.

Through the cooking utensils matching method provided in S70 and S80, the main control terminal can carry out fire control on the paired cooking utensils based on the received boiling-over signals, kitchen safety is ensured, and living quality of the old is improved especially for solitary old people and the like.

As can be seen from the above-described range matching system, the present application has at least the following technical effects:

(1) Through ingenious design to cooking utensils matching system for main control terminal can realize the quick match, the accurate pair to cooking utensils according to first default firepower data and first to-be-verified firepower data that receive, thereby ensures the matchability of pot, kitchen in the use, has avoided the kitchen problem emergence that leads to because of pot, kitchen mismatch.

In addition, the method and the device utilize the communication characteristics of low time delay and high speed of 5G communication, effectively improve the data transmission efficiency in the cooking appliance matching process, and further ensure the kitchen safety.

(2) Considering that the population aging of China is more and more serious, the old living alone is more and more, and the kitchen problems caused by improper operation are more and more, the kitchen matching system provided by the application has high intelligence, is simple to operate, is more suitable for the old to operate, and further ensures the kitchen safety.

Example III

Based on the foregoing description, please refer to fig. 1 again, the pan matching method applied to the pan matching system may have the following interaction flow.

(1) The pressure sensor on the kitchen range detects the pressure according to the preset time interval (such as 5s and the like), and sends the detection result to the controller.

(2) The controller compares the received pressure value with a first preset value, and if the pressure value is larger than the first preset value, the controller judges that a cooker is placed on the cooker, and controls the fire switch to be turned on according to first preset fire data so as to heat the cooker on the cooker.

Meanwhile, the controller sends the first preset fire data to the main control terminal through the 5G communication module.

(3) The pot detects thermal power data in the heating process through the temperature sensor to serve as first thermal power data to be verified, and the first thermal power data to be verified is sent to the main control terminal through a 5G communication module arranged on the pot.

(4) The main control terminal matches the received first preset fire data with the first fire data to be verified.

(5) When the first preset fire data is successfully matched with the first fire data to be verified, the main control terminal is also used for generating second preset fire data and sending the second preset fire data to the kitchen range;

(6) When the cooker receives the second preset fire data, the controller controls the fire switch to conduct fire adjustment, so that the cooker heats the cooker according to the second preset fire data.

(7) The cooker detects fire data in the heating process, serves as second fire data to be verified, and sends the second fire data to the main control terminal through the 5G communication module.

(8) The master control terminal performs secondary matching on the received second fire data to be verified and the second preset fire data, and pairs the cooker and the cooker when the second preset fire data and the second fire data to be verified are successfully matched.

In addition, when the second preset fire data and the second fire data to be verified are successfully matched, the main control equipment feeds back a pairing result to the cooker, and a controller in the cooker heats the cooker according to a preset heating program.

When the first preset fire data and the first to-be-verified fire data are not successfully matched, or the second preset fire data and the second to-be-verified fire data are not successfully matched, the main control terminal generates a heating stopping signal and feeds the heating stopping signal back to the cooker, so that the cooker stops heating the cooker based on the heating stopping signal.

It should be noted that, the detailed descriptions of the foregoing (1) to (8) may refer to the related descriptions in the first embodiment and/or the second embodiment, and this embodiment is not repeated herein. In addition, the matching process given in the foregoing (1) to (8) is only one implementation of the cooktop matching method given in the present application, and the present embodiment may have more or fewer steps than the foregoing matching process when actually implemented.

In the description of the present application, the terms "configured," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art in a specific context.

The foregoing description is only of the preferred embodiments of the present application and is not intended to limit the same, but rather, various modifications and variations may be made by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principles of the present application should be included in the protection scope of the present application.

Claims (10)

1. The kitchen range matching system is characterized by comprising a main control terminal, at least one kitchen range and at least one cooker:

the cooker is used for heating at least one cooker according to first preset fire data, and the first preset fire data is sent to the main control terminal through a 5G communication module arranged on the cooker;

at least one pot is used for detecting fire data in the heating process, taking the fire data as first fire data to be verified, and sending the first fire data to be verified to the main control terminal through a 5G communication module arranged on the pot;

the main control terminal is used for matching at least one received first preset fire data with at least one first fire data to be verified, and matching the successfully matched first preset fire data with a cooker and a pot corresponding to the first fire data to be verified.

2. The cooktop matching system of claim 1, wherein when there is first preset fire data and first to-be-verified fire data that are successfully matched, cooktops and cooktops corresponding to the first preset fire data and the first to-be-verified fire data that are successfully matched are respectively used as target cooktops and target cooktops;

the main control terminal is also used for generating second preset fire data and sending the second preset fire data to the target kitchen range;

the target cooker is also used for heating the target cooker according to the received second preset fire data;

the target cooker is also used for detecting fire data in the heating process and sending the fire data to the main control terminal as second fire data to be verified;

the main control terminal is further used for carrying out secondary matching on the received second thermal data to be verified and the second preset thermal data, and pairing the target kitchen range and the target cooker when the second preset thermal data and the second thermal data to be verified are successfully matched.

3. The cooktop matching system of claim 1, wherein the cooktop further comprises a controller, a cooktop, and a pressure sensor disposed on the cooktop and a fire switch for controlling a fire state;

the controller is respectively connected with the main control terminal, the pressure sensor, the fire switch and the 5G communication module;

the pressure sensor is used for detecting a pressure value on the kitchen range and sending the pressure value to the controller;

the controller compares the received pressure value with a first preset value, controls the fire switch to be turned on according to first preset fire data when the pressure value is larger than the first preset value so as to heat a cooker on the cooking range, and sends the first preset fire data to the main control terminal through the 5G communication module; and

the controller is also used for receiving second preset fire data sent by the main control terminal and adjusting the fire switch according to the second preset fire data so as to heat the cooker.

4. The cooktop matching system of claim 3, wherein the cooktop is provided with a temperature sensor for detecting thermal data and a boil-over detection sensor for detecting a boil-over condition within the cooktop;

the temperature sensor and the boiling-over detection sensor are respectively connected with the 5G communication module and are used for sending detection results to the main control terminal through the 5G communication module.

5. The cooktop matching system of claim 4, wherein the cooktop includes a plurality of heating areas thereon; the pot is provided with a plurality of temperature sensor groups corresponding to the heating areas one by one, and each temperature sensor group is used for detecting thermal data of the corresponding heating area.

6. The cooktop matching system of claim 4, wherein the boil-over detection sensor includes a vibration sensor or/and a humidity sensor disposed on the cooktop.

7. A cooktop matching method, characterized by being applied to a master control terminal in a cooktop matching system of claim 1, comprising:

receiving first preset fire data sent by at least one kitchen range through a 5G communication module;

receiving first to-be-verified fire data which is detected by at least one pot in the heating process and sent by a 5G communication module;

and matching the first preset fire data with the first fire data to be verified, and matching the successfully matched first preset fire data with a cooker and a pot corresponding to the first fire data to be verified.

8. The cooktop matching method of claim 7, wherein when there is a first preset fire data and a first to-be-verified fire data that are successfully matched, the method further comprises:

generating second preset fire data and sending the second preset fire data to a target cooking appliance so that the target cooking appliance heats a target cooker positioned on a cooking range according to the second preset fire data, wherein the target cooking appliance and the target cooker correspond to the first preset fire data and the first to-be-verified fire data which are successfully matched;

receiving second thermal power data to be verified, which is detected by the target pot in the heating process and is sent by the 5G communication module;

and performing secondary comparison on the second preset fire data and the second fire data to be verified, and executing the step of pairing the first preset fire data successfully matched with the cooker and the pot corresponding to the first fire data to be verified when the matching is successful.

9. The cooktop matching method of claim 8, further comprising:

when the first preset fire data and the first to-be-verified fire data are successfully matched, or the second preset fire data and the second to-be-verified fire data are successfully matched, a matching success signal is generated and fed back to the cooker, so that the cooker heats the cooker according to a preset heating program;

and when the first preset fire data and the first to-be-verified fire data fail to be matched, or the second preset fire data and the second to-be-verified fire data fail to be matched, generating a heating stopping signal and feeding the heating stopping signal back to the cooker, so that the cooker stops heating the cooker based on the heating stopping signal.

10. The cooktop matching method of claim 7, further comprising:

receiving a boiling-over signal detected by the cookers and sent by a 5G communication module;

and generating a fire control signal according to the boiling-over signal and sending the fire control signal to a cooker matched with the cooker, so that the cooker adjusts the fire state in the current heating process based on the fire control signal.