CN116518424A

CN116518424A - Cooking stove firepower regulating and controlling method and device based on intelligent handle-cooking stove communication

Info

Publication number: CN116518424A
Application number: CN202310477504.1A
Authority: CN
Inventors: 钱天; 钱意; 万晨
Original assignee: Shenzhen Huowang Intelligent Kitchen Electric Co ltd
Current assignee: Shenzhen Huowang Intelligent Kitchen Electric Co ltd
Priority date: 2023-04-26
Filing date: 2023-04-26
Publication date: 2023-08-01

Abstract

The invention discloses a stove firepower regulating and controlling method and device based on intelligent handle-stove communication, wherein the method comprises the following steps: when the intelligent cooking equipment is in an operating state, collecting the temperature of a first area, which is connected with the intelligent handle and the intelligent cooker; judging whether the temperature of the first area is higher than the first early warning temperature, if so, acquiring fire data of a second area corresponding to the intelligent cooker based on the intelligent handle; when the firepower data indicates that the intelligent cooker meets the preset firepower regulation and control conditions, the firepower regulation and control prompt aiming at the intelligent cooker is generated by the intelligent handle and is sent to the intelligent cooker so as to trigger the intelligent cooker to execute the following operations: and receiving a fire control prompt by the intelligent kitchen range and adjusting the cooking fire of the intelligent kitchen range until the temperature of the first area is less than or equal to the first early warning temperature and the fire control operation is determined not to be required to be executed. Therefore, by implementing the intelligent cooker, the automatic monitoring of the temperature of the intelligent cooker and the automatic regulation and control of the firepower of the intelligent cooker can be realized, and the damage probability of the intelligent handle is reduced.

Description

Cooking stove firepower regulating and controlling method and device based on intelligent handle-cooking stove communication

Technical Field

The invention relates to the technical field of intelligent communication, in particular to a kitchen range firepower control method and device based on intelligent handle-kitchen range communication.

Background

Along with the rapid development of the intelligent technology, the development and application of the intelligent technology in various fields are also mature, wherein the intelligent application comprises intelligent kitchen ware: intelligent kitchen ranges, intelligent smoke exhaust ventilator, intelligent cookware, intelligent turners and the like.

In the existing intelligent kitchen ware, the common intelligent direction of cooking is to carry out cooking process design on food materials needing to be cooked and the intelligent kitchen ware used in advance through an intelligent algorithm, so that corresponding intelligent chips are loaded on corresponding intelligent kitchen ware to assist in cooking. However, in the existing intelligent cooking design, the design of the intelligent cooking process is focused on how to adjust the timing and control of the corresponding intelligent kitchen ware in each subdivision cooking step, and the final intelligent purpose is to complete the designed intelligent cooking process, which often results in that the designed intelligent cooking process is built on unreasonable intelligent kitchen ware power consumption, and the probability of excessive loss of the intelligent kitchen ware is increased. For example, a pre-designed cooking process of food materials is based on the premise that the food materials need to be cooked for a long time by using large firepower, the finally designed intelligent cooking process may need to output the large firepower for a long time by using the intelligent kitchen ware, however, the heat-resistant temperature of the intelligent cooker is different from the heat-resistant temperature of the intelligent handle connected with the intelligent cooker, at the moment, the intelligent handle receives the high temperature transmitted by the intelligent cooker for a long time, and finally even the intelligent handle is damaged. Therefore, aiming at the situation, the method for reducing the damage probability of the intelligent handle and prolonging the service life of the intelligent handle is particularly important while ensuring that the cooking of the food materials is successfully completed.

Disclosure of Invention

The technical problem to be solved by the invention is to provide the cooker firepower regulating and controlling method and the cooker firepower regulating and controlling device based on intelligent handle-cooker communication, which can reduce the probability of damage of the intelligent handle caused by overhigh temperature of the cooker while ensuring smooth completion of cooking food materials, thereby being beneficial to prolonging the service life of the intelligent handle.

In order to solve the technical problems, the first aspect of the invention discloses a stove firepower control method based on intelligent handle-stove communication, which comprises the following steps:

when the intelligent cooking equipment is determined to be in an operating state, collecting a first area temperature corresponding to a first area where an intelligent handle is connected with an intelligent cooker, wherein the intelligent cooking equipment comprises the intelligent handle, the intelligent cooker and an intelligent cooker for heating the intelligent cooker;

judging whether the temperature of the first area is higher than a first early warning temperature, and acquiring fire data of a second area corresponding to the intelligent cooker based on the intelligent handle when the temperature of the first area is higher than the first early warning temperature;

when the firepower data is determined to indicate that the intelligent cooker meets the preset firepower regulation and control conditions, generating a firepower regulation and control prompt aiming at the intelligent cooker by the intelligent handle, wherein the firepower regulation and control prompt comprises the firepower regulation and control conditions and the firepower data; and sending the firepower control prompt to the intelligent kitchen range so as to trigger the intelligent kitchen range to execute the following operations:

And receiving the firepower regulation prompt by the intelligent kitchen range, and regulating the corresponding cooking firepower of the intelligent kitchen range according to the firepower regulation prompt until the first area temperature is less than or equal to the first early warning temperature and the firepower data indicate that firepower regulation operation is not required to be executed.

As an alternative embodiment, in the first aspect of the present invention, the fire data includes a second zone temperature of the second zone; after the intelligent handle is used for collecting the fire data of the second area corresponding to the intelligent cooker, the method further comprises the following steps:

judging whether the temperature of the second area is higher than a second early warning temperature, and determining that the intelligent cooker meets preset fire control conditions when judging that the temperature of the second area is higher than the second early warning temperature;

when the temperature of the second area is judged to be lower than or equal to the second early warning temperature, heating parameters of the intelligent cooker for heating the intelligent cooker at present are determined, wherein the heating parameters comprise power output parameters and duration corresponding to the power output parameters;

determining temperature change data corresponding to the second region according to the temperature of the second region and the heating parameter, and determining a target temperature regulation node and a critical node when determining that the temperature change data indicates that the temperature of the second region is to be changed to be higher than the second early warning temperature within the duration;

When the intelligent cooker heats the intelligent cooker based on the heating parameters until reaching the target temperature regulating node, determining that the intelligent cooker meets preset firepower regulating conditions;

the critical node is a node corresponding to the second area temperature changing to the second early warning temperature, and the node time of the target temperature regulating node is before the node time of the critical node.

As an optional implementation manner, in the first aspect of the present invention, when it is determined that the temperature change data indicates that the temperature of the second area will change to be higher than the second early warning temperature within the duration, the determining the target temperature adjustment node and the critical node includes:

according to the temperature change data and a preset temperature analysis algorithm, an initial temperature regulating node is estimated, wherein the initial temperature regulating node is a node corresponding to the cooking firepower of the intelligent cooker;

determining residual temperature change data according to the temperature change data, wherein the residual temperature change data is heating data of the intelligent cooker by residual heat corresponding to the heat data after the cooking heat power of the intelligent cooker is adjusted to be preset heat power;

Updating the initial temperature regulating node according to the residual temperature factor data to obtain a target temperature regulating node and a critical node;

and the cooking firepower of the intelligent cooker is downwards regulated at the target temperature regulating node, and the temperature of the second area corresponding to the intelligent cooker is maintained to be lower than or equal to the second early warning temperature. .

In a first aspect of the present invention, the updating the initial temperature adjustment node according to the residual temperature factor data to obtain a target temperature adjustment node and a critical node includes:

judging whether the highest temperature rise temperature is greater than the second early warning temperature according to the residual temperature dependent change data, and determining the initial temperature regulation node as a target temperature regulation node and determining a node corresponding to the highest temperature rise temperature as a critical node when judging that the highest temperature rise temperature is less than or equal to the second early warning temperature;

the highest temperature is the highest temperature of the second area temperature corresponding to change after the cooking firepower is adjusted downwards at the initial temperature adjusting node.

In an optional implementation manner, in the first aspect of the present invention, when it is determined that the highest heating temperature is greater than the second pre-warning temperature, the method further includes:

Determining a first heating time period from the temperature change of the second area to the highest heating temperature and a second heating time period from the temperature change of the second area to the second early warning temperature; calculating the heating time difference between the first heating time length and the second heating time length;

and tracing the time by taking the node time corresponding to the initial temperature regulating node as a reference and the heating time difference as a time span, determining a prepositive node of the node time before the node time corresponding to the initial temperature regulating node, simultaneously updating the initial temperature regulating node to be the prepositive node, taking the prepositive node as a target temperature regulating node, and determining a node which is used for regulating the cooking fire at the target temperature regulating node downwards to obtain the highest heating temperature as a critical node.

In a first aspect of the present invention, when the fire data indicates that the intelligent cooker meets a preset fire control condition, the intelligent cooker adjusts the cooking fire corresponding to the intelligent cooker according to the fire control prompt, including:

determining a temperature adjusting moment and a current temperature corresponding to the target temperature adjusting node under the fire adjusting condition by the intelligent kitchen range according to the fire adjusting prompt;

Acquiring current food cooking information of the intelligent cooking equipment by the intelligent kitchen range, wherein the food cooking information comprises a cooking firepower requirement and a duration corresponding to the cooking firepower requirement;

the intelligent kitchen range synthesizes the temperature regulating moment and the current temperature according to the food cooking information and the heating parameters, and combines a preset firepower regulating algorithm to generate a plurality of firepower regulating schemes, wherein each firepower regulating scheme comprises at least one power parameter aiming at the intelligent kitchen range and the power parameter and the corresponding power duration;

calculating scheme power consumption corresponding to each firepower regulation scheme by the intelligent kitchen range, and screening out target regulation schemes with the scheme power consumption meeting preset screening conditions, wherein the target regulation schemes comprise at least one power parameter aiming at the intelligent kitchen range and power duration corresponding to each power parameter;

and adjusting the cooking firepower corresponding to the intelligent kitchen range by the intelligent kitchen range according to the target regulation and control scheme.

In a first aspect of the present invention, when the number of parameters corresponding to the power parameters in the target regulation scheme is greater than 1, each power parameter includes execution sequencing and power factor change data corresponding to the power parameter;

The power factor data corresponding to each power parameter specifically comprises estimated temperature change data corresponding to the second region temperature after corresponding power duration is executed under the power parameter;

the method further comprises the steps of:

acquiring data after the cooking firepower corresponding to the intelligent kitchen range is adjusted based on the target regulation and control scheme, obtaining actual temperature change data corresponding to each power parameter, comparing the estimated temperature change data corresponding to each power parameter with the actual temperature change data, and obtaining a corrected power parameter, wherein the data difference between the estimated temperature change data corresponding to the corrected power parameter and the actual temperature change data corresponding to the corrected power parameter is larger than a preset standard data difference;

updating the corrected power parameter according to the preset standard data difference so that the data difference corresponding to the corrected power parameter is smaller than or equal to the preset standard data difference.

The second aspect of the invention discloses a stove fire control device based on intelligent handle-stove communication, which comprises:

the intelligent cooking equipment comprises an intelligent handle, an intelligent cooker and an intelligent kitchen range for heating the intelligent cooker, wherein the intelligent handle is connected with the intelligent cooker;

The judging module is used for judging whether the temperature of the first area is higher than a first early warning temperature or not;

the acquisition module is further used for acquiring fire data of a second area corresponding to the intelligent cooker based on the intelligent handle when the judgment module judges that the temperature of the first area is higher than the first early warning temperature;

the generation module is used for generating a fire control prompt aiming at the intelligent kitchen range by the intelligent handle when the fire data indicate that the intelligent cooker meets the preset fire control condition, wherein the fire control prompt comprises the fire control condition and the fire data;

the communication module is used for sending the firepower control prompt to the intelligent kitchen range through the intelligent handle; the intelligent kitchen range is also used for triggering the intelligent kitchen range to receive the firepower control prompt;

and the fire regulation and control module is used for regulating the cooking fire corresponding to the intelligent kitchen range by the intelligent kitchen range according to the fire regulation and control prompt until the first area temperature is less than or equal to the first early warning temperature and the fire data indicate that the fire regulation and control operation is not required to be executed.

As an alternative embodiment, in the second aspect of the present invention, the fire data includes a second zone temperature of the second zone; the judging module is further used for judging whether the temperature of a second area corresponding to the intelligent cooker is higher than a second early warning temperature after the acquisition module acquires the fire data of the second area based on the intelligent handle;

The apparatus further comprises:

the first determining module is used for determining that the intelligent cooker meets a preset fire control condition when the judging module judges that the temperature of the second area is higher than the second early warning temperature;

the first determining module is further configured to determine a heating parameter of the intelligent cooker when the judging module judges that the second area temperature is lower than or equal to the second early warning temperature, where the heating parameter includes a power output parameter and a duration corresponding to the power output parameter;

the first determining module is further configured to determine temperature change data corresponding to the second area according to the temperature of the second area and the heating parameter;

the second determining module is used for determining a target temperature regulating node and a critical node when determining that the temperature change data indicates that the temperature of the second area is to be changed to be higher than the second early warning temperature within the duration;

the first determining module is further configured to determine that the intelligent cooker meets a preset fire control condition when the intelligent cooker heats the intelligent cooker based on the heating parameter until reaching the target temperature adjustment node;

The critical node is a node corresponding to the second area temperature changing to the second early warning temperature, and the node time of the target temperature regulating node is before the node time of the critical node. .

In a second aspect of the present invention, the determining, by the second determining module, the target temperature adjustment node and the critical node specifically includes:

when the temperature change data is determined to indicate that the temperature of the second area is higher than the second early warning temperature within the duration, an initial temperature regulating node is estimated according to the temperature change data and a preset temperature analysis algorithm, wherein the initial temperature regulating node is a node corresponding to the cooking firepower of the intelligent kitchen range;

and the cooking firepower of the intelligent cooker is downwards regulated at the target temperature regulating node, and the temperature of the second area corresponding to the intelligent cooker is maintained to be lower than or equal to the second early warning temperature.

In a second aspect of the present invention, the second determining module updates the initial temperature adjustment node according to the residual temperature factor data, and the method for obtaining the target temperature adjustment node and the critical node specifically includes:

In a second aspect of the present invention, as an optional implementation manner, the second determining module updates the initial temperature adjustment node according to the residual temperature factor data, so as to obtain a target temperature adjustment node and a critical node, where the method further includes:

when the highest temperature rise temperature is judged to be larger than the second early warning temperature, determining a first temperature rise time period from the second region temperature to the highest temperature rise temperature and a second temperature rise time period from the second region temperature to the second early warning temperature; calculating the heating time difference between the first heating time length and the second heating time length;

In a second aspect of the present invention, the mode of adjusting, by the intelligent cooker, the cooking fire power corresponding to the intelligent cooker according to the fire power adjustment prompt specifically includes:

when the firepower data indicates that the intelligent cooker meets a preset firepower regulation condition, determining a temperature regulation moment and a current temperature corresponding to the target temperature regulation node under the firepower regulation condition by the intelligent cooker according to the firepower regulation prompt;

In a second aspect of the present invention, when the number of parameters corresponding to the power parameters in the target regulation scheme is greater than 1, each power parameter includes execution sequencing and power factor change data corresponding to the power parameter;

The acquisition module is also used for acquiring data after the cooking firepower corresponding to the intelligent kitchen range is adjusted based on the target regulation and control scheme, and obtaining actual temperature change data corresponding to each power parameter;

the apparatus further comprises:

the comparison module is used for comparing the estimated temperature change data corresponding to each power parameter with the actual temperature change data to obtain a corrected power parameter, and the data difference between the estimated temperature change data corresponding to the corrected power parameter and the actual temperature change data corresponding to the corrected power parameter is larger than a preset standard data difference;

and the updating module is used for updating the corrected power parameter according to the preset standard data difference so that the data difference corresponding to the corrected power parameter after correction is smaller than or equal to the preset standard data difference.

The third aspect of the invention discloses another stove fire control device based on intelligent handle-stove communication, which comprises:

a memory storing executable program code;

a processor coupled to the memory;

the processor invokes the executable program code stored in the memory to execute the cooking appliance fire control method based on intelligent handle-cooking appliance communication disclosed in the first aspect of the invention.

A fourth aspect of the invention discloses a computer storage medium storing computer instructions for executing the cooking appliance fire control method based on intelligent handle-cooking appliance communication disclosed in the first aspect of the invention when the computer instructions are called.

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

in the embodiment of the invention, a stove firepower control method based on intelligent handle-stove communication is provided, and the method comprises the following steps: when the intelligent cooking equipment is determined to be in an operating state, collecting the temperature of a first area corresponding to a first area connected with the intelligent cooker by the intelligent handle, wherein the intelligent cooking equipment comprises the intelligent handle, the intelligent cooker and an intelligent cooker for heating the intelligent cooker; judging whether the temperature of the first area is higher than a first early warning temperature, and acquiring fire data of a second area corresponding to the intelligent cooker based on the intelligent handle when the temperature of the first area is higher than the first early warning temperature; when it is determined that the fire data indicates that the intelligent cooker meets the preset fire regulation and control conditions, a fire regulation and control prompt aiming at the intelligent cooker is generated by the intelligent handle, wherein the fire regulation and control prompt comprises the fire regulation and control conditions and the fire data; and sending a fire control prompt to the intelligent kitchen range to trigger the intelligent kitchen range to perform the following operations: and receiving a fire control prompt by the intelligent kitchen range, and adjusting the corresponding cooking fire of the intelligent kitchen range according to the fire control prompt until the temperature of the first area is less than or equal to the first early warning temperature and the fire data indicate that the fire control operation is not required to be executed. Therefore, the intelligent monitoring method and the intelligent monitoring system can intelligently collect the temperature of the first area, further judge whether the temperature is higher than the first early warning temperature, if so, further analyze the acquired firepower data of the second area, realize the collection and multistage judgment of the data of different areas (the first area and the second area) on the intelligent cooker, and realize the intelligent monitoring of the appearance temperature of the cooker when the intelligent cooker is operated (during cooking); when the intelligent cooker is determined to meet the preset fire regulation and control conditions, corresponding fire regulation and control prompts are generated in time, so that the determination speed of the intelligent cooker is improved when the intelligent cooker meets the preset fire regulation and control conditions; finally trigger intelligent cooking utensils and receive this firepower regulation and control suggestion and carry out intelligent adjustment of intelligent cooking utensils firepower, through processes such as this aforesaid temperature monitoring, data acquisition, processing, discovery efficiency when having improved the cooking in-process intelligent pan and having satisfied firepower regulation and control the condition and to the adjustment speed of carrying out intelligent cooking utensils firepower adjustment under this circumstances, effectively reduced intelligent handle because of first regional too high influence itself to the probability that intelligent handle damaged appears is favorable to prolonging intelligent handle's use handle and safety in utilization.

Drawings

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

FIG. 1 is a schematic flow diagram of a cooking appliance firepower control method based on intelligent handle-cooking appliance communication, disclosed in the embodiment of the invention;

FIG. 2 is a schematic flow chart of another cooking appliance firepower control method based on intelligent handle-cooking appliance communication, disclosed in the embodiment of the invention;

FIG. 3 is a schematic diagram of a stove fire control device based on intelligent handle-stove communication according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of another stove fire control device based on intelligent handle-stove communication according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of another stove fire control device based on intelligent handle-stove communication according to an embodiment of the present invention.

Detailed Description

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

The terms first, second and the like in the description and in the claims and in the above-described figures are used for distinguishing between different objects and not necessarily for describing a sequential or chronological order. Furthermore, the terms "comprise" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion. For example, a process, method, apparatus, article, or article that comprises a list of steps or elements is not limited to only those listed but may optionally include other steps or elements not listed or inherent to such process, method, article, or article.

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

The invention discloses a stove firepower regulating and controlling method and device based on intelligent handle-stove communication, which can intelligently collect the temperature of a first area, further judge whether the temperature is higher than a first early warning temperature, if so, further analyze the firepower data of a second area collected, realize the collection and multistage judgment of the data of different areas (the first area and the second area) on an intelligent pot, and realize the intelligent monitoring of the appearance temperature of the pot when the intelligent pot is operated (when in cooking); when the intelligent cooker is determined to meet the preset fire regulation and control conditions, corresponding fire regulation and control prompts are generated in time, so that the determination speed of the intelligent cooker is improved when the intelligent cooker meets the preset fire regulation and control conditions; finally trigger intelligent cooking utensils and receive this firepower regulation and control suggestion and carry out intelligent adjustment of intelligent cooking utensils firepower, through processes such as this aforesaid temperature monitoring, data acquisition, processing, discovery efficiency when having improved the cooking in-process intelligent pan and having satisfied firepower regulation and control the condition and to the adjustment speed of carrying out intelligent cooking utensils firepower adjustment under this circumstances, effectively reduced intelligent handle because of first regional too high influence itself to the probability that intelligent handle damaged appears is favorable to prolonging intelligent handle's use handle and safety in utilization. The following will describe in detail.

Example 1

Referring to fig. 1, fig. 1 is a schematic flow chart of a cooking stove fire control method based on intelligent handle-cooking stove communication according to an embodiment of the present invention. The stove fire power regulation method based on the intelligent handle-stove communication described in fig. 1 can be applied to a stove fire power regulation device based on the intelligent handle-stove communication, and the embodiment of the invention is not limited. As shown in fig. 1, the intelligent handle-cooker communication-based cooker fire regulation method may include the following operations:

101. when determining that intelligent cooking equipment is in running state, gather intelligent handle and intelligent pan's the first regional temperature that first region that links to each other corresponds, intelligent cooking equipment includes intelligent handle, intelligent pan and is used for heating intelligent cooking utensils of intelligent pan.

In the embodiment of the invention, the intelligent handle and the intelligent cooker are connected through a process, and the connection can be in a detachable first connection mode or in a non-detachable second connection mode.

In the embodiment of the invention, the first area may refer to an area part of the boundary between the intelligent pot and the intelligent handle, and may also refer to an area part of the boundary between the intelligent pot and the intelligent handle, preferably the former.

In the embodiment of the invention, specifically, a long handle area which is connected with an intelligent pot and an intelligent handle is marked as Z, wherein Z comprises an A area and a B area, the A area is correspondingly attributed to the intelligent pot, the B area is correspondingly attributed to the intelligent handle, the A area can be divided into an a1 small area and an a2 small area, and the a1 area is one far away from the B area; the area B can be divided into three small areas B1, B2 and B3, and the three areas B1-B3 are gradually far away from the area A in sequence; and a boundary line/demarcation area corresponding to the intelligent pot and the intelligent handle exists between a2 and b 1.

Further, the first area may refer to an a1 area or an a2 area, preferably an a1 area, and the a2 area is reserved as a temperature buffer area, so as to prevent the fault tolerance rate of temperature regulation from being reduced due to the fact that the temperature of the a1 area is too high and no buffer area exists; the first region may refer to any one of the regions b1, b2, b3, preferably b2 or b3, and the principle is similar, the corresponding temperature buffer region is reserved, preferably, fewer fine chips are integrated in the design b1, or chips with higher heat resistance temperature are configured.

In the embodiment of the present invention, the operations corresponding to the collection, judgment and analysis of the first area temperature of the first area may be performed by an equipment chip configured by the intelligent cooking equipment or an associated equipment system, or may also be performed by an intelligent handle, which is not limited by the embodiment of the present invention.

102. Judging whether the temperature of the first area is greater than the first early warning temperature, and acquiring fire data of a second area corresponding to the intelligent cooker based on the intelligent handle when the temperature of the first area is greater than the first early warning temperature.

103. When it is determined that the fire data indicates that the intelligent cooker meets the preset fire regulation and control conditions, a fire regulation and control prompt for the intelligent cooker is generated by the intelligent handle and sent to the intelligent cooker.

In the embodiment of the invention, the firepower control prompt comprises firepower control conditions and firepower data; after executing step 103, the intelligent kitchen range is triggered to execute step 104.

104. And receiving a fire control prompt by the intelligent kitchen range, and adjusting the corresponding cooking fire of the intelligent kitchen range according to the fire control prompt until the temperature of the first area is less than or equal to the first early warning temperature and the fire data indicate that the fire control operation is not required to be executed.

Therefore, by implementing the cooking stove firepower control method based on intelligent handle-cooking stove communication described in fig. 1, the temperature of the first area can be intelligently collected, whether the temperature is higher than the first early warning temperature or not is judged, if yes, the collected firepower data of the second area is further analyzed, the collection and multistage judgment of the data of different areas (the first area and the second area) on the intelligent cooker are realized, and the intelligent monitoring of the appearance temperature of the cooker during the operation (cooking) of the intelligent cooker is realized; when the intelligent cooker is determined to meet the preset fire regulation and control conditions, corresponding fire regulation and control prompts are generated in time, so that the determination speed of the intelligent cooker is improved when the intelligent cooker meets the preset fire regulation and control conditions; finally trigger intelligent cooking utensils and receive this firepower regulation and control suggestion and carry out intelligent adjustment of intelligent cooking utensils firepower, through processes such as this aforesaid temperature monitoring, data acquisition, processing, discovery efficiency when having improved the cooking in-process intelligent pan and having satisfied firepower regulation and control the condition and to the adjustment speed of carrying out intelligent cooking utensils firepower adjustment under this circumstances, effectively reduced intelligent handle because of first regional too high influence itself to the probability that intelligent handle damaged appears is favorable to prolonging intelligent handle's use handle and safety in utilization.

Example two

Referring to fig. 2, fig. 2 is a flow chart of another stove fire control method based on intelligent handle-stove communication according to an embodiment of the present invention. The stove fire power regulation method based on the intelligent handle-stove communication described in fig. 2 can be applied to a stove fire power regulation device based on the intelligent handle-stove communication, and the embodiment of the invention is not limited. As shown in fig. 2, the intelligent handle-cooker communication-based cooker fire regulation method may include the following operations:

201. when determining that intelligent cooking equipment is in running state, gather intelligent handle and intelligent pan's the first regional temperature that first region that links to each other corresponds, intelligent cooking equipment includes intelligent handle, intelligent pan and is used for heating intelligent cooking utensils of intelligent pan.

202. Judging whether the temperature of the first area is greater than the first early warning temperature, and acquiring fire data of a second area corresponding to the intelligent cooker based on the intelligent handle when the temperature of the first area is greater than the first early warning temperature.

203. The fire data comprises a second region temperature of the second region, and whether the second region temperature is higher than a second early warning temperature is judged.

204. And when the temperature of the second area is higher than the second early warning temperature, determining that the intelligent cooker meets the preset fire regulation and control conditions.

205. And when the temperature of the second area is lower than or equal to the second early warning temperature, determining the heating parameters of the intelligent cooker for heating the intelligent cooker currently.

In the embodiment of the invention, the heating parameters comprise power output parameters and duration corresponding to the power output parameters.

206. And determining temperature change data corresponding to the second area according to the temperature of the second area and the heating parameter, and determining a target temperature regulation node and a critical node when the temperature change data are determined to indicate that the temperature of the second area is changed to be higher than the second early warning temperature within the duration.

In the embodiment of the invention, the critical node is a node corresponding to the temperature change of the second area to the second early warning temperature, and the node moment of the target temperature regulating node is before the node moment of the critical node.

207. When the intelligent cooker heats the intelligent cooker based on the heating parameters until reaching the target temperature regulating node, determining that the intelligent cooker meets preset fire regulation conditions.

In the embodiment of the invention, the intelligent cookware can be a pan, a round-bottom frying pan or other cookware, and the embodiment of the invention is not limited.

In the embodiment of the invention, the second area may refer to an area corresponding to the center of the intelligent cooker, or may be a flame contact area corresponding to a cooking flame of the intelligent cooker, where the outer surface of the intelligent cooker contacts the intelligent cooker.

In an embodiment of the present invention, optionally, the thermal power data of the second area may further include cooking flame data corresponding to the intelligent cooker, where the cooking flame data includes output thermal power corresponding to the cooking flame of the intelligent cooker and/or a flame coverage area of the intelligent cooker;

when the cooking flame data comprises output firepower corresponding to the cooking flame, the output gear corresponding to the intelligent cooker corresponds to first-gear output firepower, namely the output firepower of the cooking flame is determined through the current output gear of the intelligent cooker;

when the area coverage area corresponding to the flame coverage area exceeds the preset coverage area and/or the output gear corresponding to the output firepower is in the preset gear, and the respective duration time of the two conditions exceeds the preset duration time, determining that the intelligent cooker meets the preset firepower regulation and control conditions.

In the embodiment of the invention, the foregoing discussion is integrated, specifically, when it is determined that the center temperature and/or the outer surface temperature of the intelligent cooker is higher than the second early warning temperature, the coverage area of the area corresponding to the flame coverage area exceeds the preset coverage area and the duration exceeds the preset duration, the output gear corresponding to the output fire is in the preset gear and the duration exceeds the preset duration, at least one of the conditions is met, and it is determined that the intelligent cooker meets the preset fire control condition, and at the moment, it is determined that the operation that the temperature of the second area of the intelligent cooker can be reduced by performing the down adjustment of the output gear on the intelligent cooker is required.

In the embodiment of the invention, after the firepower data of the second area are acquired, on the premise that the temperature of the first area is higher than the first early warning temperature, the judgment of whether the temperature of the second area is higher than the second early warning temperature is further carried out, and if yes, the intelligent cooker is determined to meet the firepower regulation and control condition; if not, automatically determining heating parameters of the intelligent cooker to determine temperature change of the second area by combining the temperature of the second area, and automatically determining a target temperature regulating node and a critical node when determining that the temperature change data indicates that the temperature of the second area is to be changed to the second early warning temperature so as to determine that the intelligent cooker meets the fire regulation condition at the target temperature regulating node.

208. When it is determined that the fire data indicates that the intelligent cooker meets the preset fire regulation and control conditions, a fire regulation and control prompt for the intelligent cooker is generated by the intelligent handle and sent to the intelligent cooker.

In the embodiment of the invention, the firepower control prompt comprises firepower control conditions and firepower data; after executing step 208, the intelligent kitchen range is triggered to execute step 209.

209. And receiving a fire control prompt by the intelligent kitchen range, and adjusting the corresponding cooking fire of the intelligent kitchen range according to the fire control prompt until the temperature of the first area is less than or equal to the first early warning temperature and the fire data indicate that the fire control operation is not required to be executed.

In the embodiment of the present invention, for other descriptions of step 201 to step 202 and step 208 to step 209, please refer to other specific descriptions of step 101 to step 102 and step 103 to step 104 in the first embodiment, and the description of the embodiment of the present invention is omitted.

Therefore, the implementation of the cooking stove firepower control method based on the intelligent handle-cooking stove communication described in fig. 2 provides a plurality of comprehensive judging flows for judging whether the intelligent cooker meets firepower control conditions, and improves the accuracy and reliability of determining whether the intelligent cooker meets firepower control conditions.

In an optional embodiment, when it is determined that the temperature change data indicates that the temperature of the second area will change to be higher than the second pre-warning temperature within the duration, the determining the target temperature adjustment node and the critical node specifically includes:

determining residual temperature change data according to the temperature change data, wherein the residual temperature change data is heating data of residual heat corresponding to the heat data on the intelligent cooker after the cooking heat of the intelligent cooker is adjusted to be a preset heat;

and the cooking firepower of the intelligent cooker is downwards regulated at the target temperature regulating node, and the temperature of a second area corresponding to the intelligent cooker is maintained to be lower than or equal to the second early warning temperature.

In this alternative embodiment, the preset firepower includes a zero point firepower or a non-zero point firepower corresponding to the cooking firepower of 0, and the non-zero point firepower is smaller than the cooking firepower; when the preset firepower is zero firepower, the corresponding firepower output of the intelligent cooker is cut off, and the corresponding residual temperature factor data refers to the continuous temperature rising condition of the second area of the intelligent cooker based on the residual temperature after the firepower output of the intelligent cooker is cut off, namely the residual temperature factor data, which is obtained through algorithm analysis; similarly, when the preset firepower is non-zero firepower, the residual temperature factor data refers to the continuous heating condition of the second area of the intelligent pot under the output of the firepower after current adjustment.

Optionally, the method for updating the initial temperature adjustment node according to the residual temperature factor data to obtain the target temperature adjustment node and the critical node specifically includes:

judging whether the highest temperature rise is greater than the second early warning temperature according to the residual temperature dependent change data, and determining an initial temperature regulation node as a target temperature regulation node and determining a node corresponding to the highest temperature rise as a critical node when judging that the highest temperature rise is less than or equal to the second early warning temperature;

Optionally, when the highest temperature is greater than the second pre-warning temperature, the method for updating the initial temperature adjustment node according to the residual temperature factor data to obtain the target temperature adjustment node and the critical node further includes:

determining a first heating time length corresponding to the temperature change of the second area to the highest heating temperature and a second heating time length corresponding to the temperature change of the second area to the second early warning temperature; calculating the heating time difference between the first heating time length and the second heating time length;

and tracing the time by taking the node time corresponding to the initial temperature regulating node as a reference and the temperature rise time difference as a time span, determining a front node of the node time before the node time corresponding to the initial temperature regulating node, updating the initial temperature regulating node to be the front node at the same time, taking the front node as a target temperature regulating node, and determining a node for regulating the cooking fire at the target temperature regulating node to obtain the highest temperature rise temperature as a critical node.

Therefore, in this optional embodiment, when the target temperature adjusting node and the critical node are determined, the initial temperature adjusting node can be updated by integrating the residual temperature (residual temperature change data) until the target temperature adjusting node and the critical node are determined, so that the accuracy and the reliability of determining the determined target temperature adjusting node and the determined critical node are improved, and meanwhile, the method for judging whether the intelligent cooker meets the preset fire control condition is facilitated to be enriched, and then the accuracy and the reliability of judging whether the preset fire control condition is met are improved.

In another optional embodiment, when the fire data indicates that the intelligent cooker meets the preset fire control condition, the method for adjusting the cooking fire corresponding to the intelligent cooker by the intelligent cooker according to the fire control prompt specifically includes:

determining the temperature adjusting time corresponding to the target temperature adjusting node under the fire adjusting condition according to the fire adjusting prompt by the intelligent cooker and the current temperature;

acquiring current food cooking information of the intelligent cooking equipment by the intelligent kitchen range, wherein the food cooking information comprises a cooking firepower requirement and a duration time corresponding to the cooking firepower requirement;

the intelligent kitchen range is used for comprehensively regulating temperature moment and current temperature according to food cooking information and heating parameters, and a plurality of firepower regulating schemes are generated by combining a preset firepower regulating algorithm, wherein each firepower regulating scheme comprises at least one power parameter aiming at the intelligent kitchen range and the power parameter and the corresponding power duration;

calculating scheme power consumption corresponding to each firepower regulation scheme by the intelligent cooker, and screening out target regulation schemes with scheme power consumption meeting preset screening conditions, wherein the target regulation schemes comprise at least one power parameter aiming at the intelligent cooker and a power duration corresponding to each power parameter;

And the intelligent kitchen range adjusts the corresponding cooking firepower of the intelligent kitchen range according to the target regulation and control scheme.

In this optional embodiment, optionally, when the number of parameters corresponding to the power parameters in the target regulation scheme is greater than 1, each power parameter includes execution sequencing and power factor data corresponding to the power parameter;

the power factor data corresponding to each power parameter specifically comprises estimated temperature change data corresponding to the temperature of the second region after the corresponding power duration is executed under the power parameter;

the method further comprises the steps of:

acquiring data after the cooking firepower corresponding to the intelligent kitchen range is adjusted based on a target regulation and control scheme, obtaining actual temperature change data corresponding to each power parameter, comparing estimated temperature change data corresponding to each power parameter with the actual temperature change data, obtaining a corrected power parameter, and enabling the data difference between the estimated temperature change data corresponding to the corrected power parameter and the actual temperature change data corresponding to the corrected power parameter to be larger than a preset standard data difference;

updating the corrected power parameters according to the preset standard data difference so that the data difference corresponding to the corrected power parameters is smaller than or equal to the preset standard data difference.

In the optional embodiment, when the cooking fire of the intelligent kitchen range is adjusted through the fire control prompt, a plurality of fire control schemes can be comprehensively determined according to the temperature adjustment time corresponding to the target temperature adjustment node, the current temperature, the cooking fire requirement of the current cooking food material, the duration corresponding to the cooking fire requirement and the heating parameter, then scheme power consumption of each fire control scheme is calculated, the target control scheme is obtained through screening, and the comprehensive operation of a plurality of parameters improves the determination accuracy and reliability of the finally obtained target control scheme; in addition, when the firepower of the intelligent kitchen range is regulated based on the target regulation scheme, the actual temperature change data of each power parameter can be acquired, so that the estimated temperature change data corresponding to the power parameter are compared one by one, the automatic updating and correction of the corrected power parameter are realized, and the accuracy of executing firepower regulation on the intelligent kitchen range is improved.

Example III

Referring to fig. 3, fig. 3 is a schematic structural diagram of a stove fire control device based on intelligent handle-stove communication according to an embodiment of the present invention. The stove firepower regulating device based on intelligent handle-stove communication can be a terminal, equipment, a system or a server, wherein the server can be a local server, a remote server or a cloud server (also called cloud server), and when the server is a non-cloud server, the non-cloud server can be in communication connection with the cloud server, and the embodiment of the invention is not limited. As shown in fig. 3, the stove fire control device based on intelligent handle-stove communication may include an acquisition module 301, a judgment module 302, a generation module 303, a communication module 304, and a fire control module 305, wherein:

the acquisition module 301 is configured to acquire a first area temperature corresponding to a first area where the intelligent handle is connected to the intelligent cooker when it is determined that the intelligent cooking apparatus is in an operating state, where the intelligent cooking apparatus includes the intelligent handle, the intelligent cooker, and an intelligent cooker for heating the intelligent cooker.

The determining module 302 is configured to determine whether the first area temperature is greater than a first pre-warning temperature.

The acquisition module 301 is further configured to acquire fire data of a second area corresponding to the intelligent pot based on the intelligent handle when the judgment module 302 judges that the temperature of the first area is greater than the first pre-warning temperature.

The generating module 303 is configured to generate, by the intelligent handle, a fire control prompt for the intelligent cooker when it is determined that the fire data indicates that the intelligent cooker meets a preset fire control condition, where the fire control prompt includes the fire control condition and the fire data.

The communication module 304 is used for sending the fire control prompt to the intelligent kitchen range by the intelligent handle; and the intelligent cooker is also used for triggering the intelligent cooker to receive the fire control prompt.

The fire control module 305 is configured to adjust, by the intelligent stove, cooking fire corresponding to the intelligent stove according to a fire control prompt until it is determined that the first area temperature is less than or equal to the first early warning temperature and the fire data indicates that no fire control operation needs to be performed.

Therefore, the cooking stove firepower control device based on intelligent handle-cooking stove communication described in fig. 3 can intelligently collect the temperature of the first area, further judge whether the temperature is higher than the first early warning temperature, if yes, further analyze the firepower data of the collected second area, realize the collection and multistage judgment of the data of different areas (the first area and the second area) on the intelligent cooker, and realize the intelligent monitoring of the appearance temperature of the cooker when the intelligent cooker is operated (when cooking); when the intelligent cooker is determined to meet the preset fire regulation and control conditions, corresponding fire regulation and control prompts are generated in time, so that the determination speed of the intelligent cooker is improved when the intelligent cooker meets the preset fire regulation and control conditions; finally trigger intelligent cooking utensils and receive this firepower regulation and control suggestion and carry out intelligent adjustment of intelligent cooking utensils firepower, through processes such as this aforesaid temperature monitoring, data acquisition, processing, discovery efficiency when having improved the cooking in-process intelligent pan and having satisfied firepower regulation and control the condition and to the adjustment speed of carrying out intelligent cooking utensils firepower adjustment under this circumstances, effectively reduced intelligent handle because of first regional too high influence itself to the probability that intelligent handle damaged appears is favorable to prolonging intelligent handle's use handle and safety in utilization.

In an alternative embodiment, the thermal data includes a second zone temperature of the second zone; the judging module 302 is further configured to judge whether the temperature of the second area is higher than the second early warning temperature after the collecting module 301 collects the fire data of the second area corresponding to the intelligent pot based on the intelligent handle.

As shown in fig. 4, the apparatus may further include a first determining module 306, a second determining module 307, wherein:

the first determining module 306 is configured to determine that the intelligent cooker meets a preset fire control condition when the judging module 302 judges that the second area temperature is higher than the second pre-warning temperature.

The first determining module 306 is further configured to determine a heating parameter of the intelligent cooker when the judging module 302 judges that the second area temperature is lower than or equal to the second early warning temperature, where the heating parameter includes a power output parameter and a duration corresponding to the power output parameter.

The first determining module 306 is further configured to determine temperature change data corresponding to the second area according to the temperature of the second area and the heating parameter.

The second determining module 307 is configured to determine the target temperature adjustment node and the critical node when it is determined that the temperature change data indicates that the temperature of the second region will change to be higher than the second pre-warning temperature within the duration.

The first determining module 306 is further configured to determine that the intelligent cooker meets a preset fire control condition when the intelligent cooker heats the intelligent cooker based on the heating parameter until reaching the target temperature control node.

The critical node is a node corresponding to the temperature change of the second area to the second early warning temperature, and the node moment of the target temperature regulating node is before the node moment of the critical node.

Therefore, in the alternative embodiment, a plurality of comprehensive judging flows for judging whether the intelligent cooker meets the fire control conditions are provided, and the accuracy and the reliability of determining whether the intelligent cooker meets the fire control conditions are improved.

In another alternative embodiment, the second determining module 307 determines the target temperature adjustment node and the critical node in a manner specifically including:

when it is determined that the temperature change data indicates that the temperature of the second area is higher than the second early warning temperature within the duration, an initial temperature regulating node is estimated according to the temperature change data and a preset temperature analysis algorithm, wherein the initial temperature regulating node is a node corresponding to the cooking firepower of the intelligent cooker;

In this alternative embodiment, the second determining module 307 updates the initial temperature adjustment node according to the residual temperature factor data, and the manner of obtaining the target temperature adjustment node and the critical node specifically includes:

In this alternative embodiment, the second determining module 307 updates the initial temperature adjustment node according to the residual temperature factor data, and the manner of obtaining the target temperature adjustment node and the critical node further includes:

when the highest temperature is judged to be greater than the second early warning temperature, determining a first temperature rising time period corresponding to the temperature change of the second area to the highest temperature and a second temperature rising time period corresponding to the temperature change of the second area to the second early warning temperature; calculating the heating time difference between the first heating time length and the second heating time length;

Therefore, when the cooker firepower control device based on intelligent handle-cooker communication described in fig. 4 is implemented, when the target temperature adjusting node and the critical node are determined, the initial temperature adjusting node can be updated by integrating the residual temperature (residual temperature change data) until the target temperature adjusting node and the critical node are determined, so that the determination accuracy and reliability of the determined target temperature adjusting node and the critical node are improved, and meanwhile, the judgment mode for judging whether the intelligent cooker meets the preset firepower control condition is enriched, and then the judgment accuracy and reliability of whether the preset firepower control condition is met are improved.

In another alternative embodiment, the mode of adjusting the cooking fire corresponding to the intelligent kitchen range by the intelligent kitchen range according to the fire adjustment prompt by the fire adjustment module 305 specifically includes:

When the fire data indicate that the intelligent cooker meets the preset fire regulation and control conditions, determining the temperature regulation time and the current temperature corresponding to the target temperature regulation and control node under the fire regulation and control conditions by the intelligent cooker according to the fire regulation and control prompt;

the acquisition module 301 is further configured to acquire data after adjusting the cooking firepower corresponding to the intelligent kitchen range based on the target regulation scheme, and obtain actual temperature change data corresponding to each power parameter.

As shown in fig. 4, the apparatus further includes an alignment module 308 and an update module 309, where:

the comparison module 308 is configured to compare the estimated temperature change data corresponding to each power parameter with the actual temperature change data to obtain a corrected power parameter, where a data difference between the estimated temperature change data corresponding to the corrected power parameter and the actual temperature change data corresponding to the corrected power parameter is greater than a preset standard data difference.

The updating module 309 is configured to update the corrected power parameter according to the preset standard data difference, so that the data difference corresponding to the corrected power parameter is less than or equal to the preset standard data difference.

As can be seen, implementing the cooking fire regulation device based on intelligent handle-cooking appliance communication described in fig. 4, when the cooking fire of the intelligent cooking appliance is regulated by the fire regulation prompt, a plurality of fire regulation schemes can be comprehensively determined by integrating the temperature regulation time corresponding to the target temperature regulation node, the current temperature, the cooking fire requirement of the current cooking food material, the duration corresponding to the cooking fire requirement and the heating parameter, then the scheme power consumption of each fire regulation scheme is calculated, the target regulation scheme is obtained by screening, and the comprehensive operation of a plurality of parameters improves the determination accuracy and reliability of the finally obtained target regulation scheme; in addition, when the firepower of the intelligent kitchen range is regulated based on the target regulation scheme, the actual temperature change data of each power parameter can be acquired, so that the estimated temperature change data corresponding to the power parameter are compared one by one, the automatic updating and correction of the corrected power parameter are realized, and the accuracy of executing firepower regulation on the intelligent kitchen range is improved.

Example IV

Referring to fig. 5, fig. 5 is a schematic structural diagram of a stove fire control device based on intelligent handle-stove communication according to an embodiment of the present invention. As shown in fig. 5, the cooking appliance fire power regulation device based on intelligent handle-cooking appliance communication may include:

a memory 401 storing executable program codes;

a processor 402 coupled with the memory 401;

the processor 402 invokes executable program code stored in the memory 401 to perform the steps in the cooking appliance fire control method based on intelligent handle-cooking appliance communication described in the first or second embodiment of the present invention.

Example five

The embodiment of the invention discloses a computer storage medium which stores computer instructions for executing the steps in the cooking stove firepower regulating method based on intelligent handle-cooking stove communication described in the first embodiment or the second embodiment of the invention when the computer instructions are called.

Example six

Embodiments of the present invention disclose a computer program product comprising a non-transitory computer storage medium storing a computer program, and the computer program is operable to cause a computer to perform the steps in the cooking appliance fire control method based on intelligent handle-cooking appliance communication described in embodiment one or embodiment two.

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

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

Finally, it should be noted that: the embodiment of the invention discloses a cooking stove firepower regulating method and device based on intelligent handle-cooking stove communication, which are disclosed as preferred embodiments of the invention, and are only used for illustrating the technical scheme of the invention, but not limiting the technical scheme; although the invention has been described in detail with reference to the foregoing embodiments, those of ordinary skill in the art will understand that; the technical scheme recorded in the various embodiments can be modified or part of technical features in the technical scheme can be replaced equivalently; such modifications and substitutions do not depart from the spirit and scope of the corresponding technical solutions.

Claims

1. A kitchen range firepower regulating and controlling method based on intelligent handle-kitchen range communication is characterized by comprising the following steps:

2. The method of cooking appliance fire regulation based on intelligent handle-cooking appliance communication of claim 1, wherein the fire data comprises a second zone temperature of the second zone; after the intelligent handle is used for collecting the fire data of the second area corresponding to the intelligent cooker, the method further comprises the following steps:

3. The method of claim 2, wherein when it is determined that the temperature change data indicates that the second zone temperature will change to be higher than the second pre-warning temperature within the duration, the determining the target attemperation node and the critical node comprises:

4. The cooking stove firepower control method based on intelligent handle-cooking stove communication according to claim 3, wherein the updating the initial temperature control node according to the residual temperature factor data to obtain a target temperature control node and a critical node comprises the following steps:

5. The method of claim 4, further comprising, when it is determined that the highest elevated temperature is greater than the second pre-warning temperature:

6. The method for regulating the fire power of a cooking appliance based on intelligent handle-cooking appliance communication according to claim 3, 4 or 5, wherein when the fire power data indicates that the intelligent cooking appliance meets the preset fire power regulating condition, the intelligent cooking appliance regulates the cooking fire power corresponding to the intelligent cooking appliance according to the fire power regulating prompt, comprising:

7. The method for regulating and controlling the fire power of a kitchen range based on intelligent handle-kitchen range communication according to claim 6, wherein when the number of parameters corresponding to the power parameters in the target regulation and control scheme is greater than 1, each power parameter comprises execution sequencing and power factor change data corresponding to the power parameter;

the method further comprises the steps of:

8. Cooking utensils firepower regulation and control device based on intelligent handle-cooking utensils communication, its characterized in that, the device includes:

9. Cooking utensils firepower regulation and control device based on intelligent handle-cooking utensils communication, its characterized in that, the device includes:

a memory storing executable program code;

a processor coupled to the memory;

the processor invokes the executable program code stored in the memory to perform the cooktop fire control method based on smart handle-cooktop communication of any of claims 1-7.

10. A computer storage medium storing computer instructions for executing the intelligent handle-hob communication based hob fire control method according to any one of the claims 1 to 7 when called.