CN109407567B - Control method and control system of heating platform and cooking appliance - Google Patents

Abstract

The invention provides a control method and a control system of a heating platform and a cooking appliance. The heating platform comprises a plurality of heating devices, and the plurality of heating devices are provided with a plurality of same control modules or the same control module; the control method of the heating platform comprises the following steps: detecting a type of at least one carrier placed on the plurality of heating devices; acquiring a control parameter corresponding to the type of the carrier according to the detected type corresponding to the carrier; detecting position information of the carrier on the plurality of heating devices; and controlling the heating device corresponding to the carrier to work according to the control parameters according to the position information. Through detecting the specific position of the carrier on the heating platform of the multi-heating device, the heating device corresponding to the intelligent control carrier works, so that when the position of the carrier changes, the control parameters are intelligently switched, the higher product intelligence degree is achieved, and the user experience degree is effectively improved.

Description

Control method and control system of heating platform and cooking appliance

Technical Field

The invention relates to the technical field of cooking appliances, in particular to a control method and a control system of a heating platform and a cooking appliance.

Background

Most of the traditional heating platforms can only heat a single appliance, and the heating process can only heat one appliance at the same time. Therefore, a heating platform capable of heating a plurality of appliances simultaneously is emerging at present, but in the heating process, once the position of the appliance is changed, the user is required to reset the heating parameters, the process is complicated, and on the other hand, the user needs to manually adjust the position of the pot on the heating platform when the user wants to adjust the heating position, so that more efforts of the user are spent, and the user experience is reduced.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art or the related art.

To this end, a first aspect of the present invention provides a method for controlling a heating platform.

A second aspect of the present invention is to provide a control system for a heating platform.

A third aspect of the present invention is to provide a cooking appliance.

In view of the above, according to one aspect of the present invention, a method for controlling a heating platform is provided, the heating platform includes a plurality of heating devices, wherein the plurality of heating devices have a plurality of identical control modules or an identical control module; the control method comprises the following steps: detecting a type of at least one carrier placed on the plurality of heating devices; acquiring a control parameter corresponding to the type of the carrier according to the detected type corresponding to the carrier; detecting position information of the carrier on the plurality of heating devices; and controlling the heating device corresponding to the carrier to work according to the control parameters according to the position information.

The control method of the heating platform provided by the invention is characterized in that corresponding control parameters are preset for each type of carrier (cookware), the type of the carrier (one or more) placed on a plurality of heating devices is detected, the preset corresponding control parameters are obtained according to the detected type corresponding to the carrier, then the position information of the carrier on the plurality of heating devices is detected, and finally, the heating device corresponding to the carrier is controlled to work according to the control parameters corresponding to the carrier according to the detected position information. For example, present heating platform includes first heating device, second heating device, third heating device, it has rice cooker and frying pan to place the carrier at heating platform, it places on first heating device to detect the rice cooker this moment, the frying pan is placed on second heating device, just so according to the first heating device of control parameter control that the rice cooker corresponds, control parameter control second heating device according to the frying pan corresponds, when the position is changed to rice cooker and frying pan, also can be according to the pan positional information that detects, intelligence switching control parameter. According to the invention, the specific position of the carrier on the heating platform of the multi-heating device is detected, the heating device corresponding to the carrier is intelligently controlled to work, and a user does not need to send a control instruction once and again in the cooking process, so that higher product intelligence degree is achieved, and the user experience degree is effectively improved. The heating platform comprises a plurality of heating devices, the plurality of heating devices can be provided with a plurality of same control modules, for example, each heating device can be provided with one control module, and each control module is the same; the heating device can be used for cooking a plurality of rice cookers, pressure cookers, hot water kettles, health preserving kettles and other appliances, and the heating device can be used in cooperation with the carrier, so that the appliances do not need to be provided with the heating device, and the intelligent cooking function can be realized only by cooperation with the heating platform.

The control method of the heating platform according to the present invention may further include the following technical features:

in the above technical solution, preferably, when the plurality of heating apparatuses have a plurality of identical control modules, the method for controlling the heating platform further includes: when the position information changes, the same control modules interactively change the control parameters at the moment, and then the heating devices corresponding to the carriers are continuously controlled to work according to the control parameters after interaction.

In the technical scheme, when a plurality of heating devices of a heating platform are provided with a plurality of identical control modules, and the position of a carrier on the heating devices is changed in the cooking process, a plurality of identical control modules interactively change control parameters at the moment, the control parameters at the moment of the interactive position change of the control module of the heating device corresponding to the heating device before the position change of the carrier and the control module of the heating device after the position change of the carrier can be control parameters at the moment of the interactive position change of the control module, or each control module of the heating platform interactively changes the control parameters at the moment, after the control parameters are interacted, the control module obtains the control parameters of the carrier aiming at the position change, and then the heating devices are controlled to continue to work according to the control parameters after the interaction, so that the control parameters are intelligently switched when the position of the carrier is changed, and the situation that a user needs to manually set the control parameters again when the position of the carrier on the heating platform is changed is avoided, the higher product intelligent degree is achieved.

In any of the above technical solutions, preferably, when the plurality of heating apparatuses have the same control module, the method for controlling the heating platform further includes: when the position information changes, the control module controls the heating device corresponding to the carrier to work according to the control parameters at the changing moment.

In the technical scheme, when a plurality of heating devices are provided with the same control module, namely all the heating devices are controlled by one control module, in the cooking process, when the positions of carriers on the heating devices are changed, the control module is provided with control parameters at the moment of changing the positions of the carriers, and then the control module controls the heating devices to work according to the new positions of the carriers and the control parameters at the moment of changing, so that when the positions of the carriers are changed, the heating devices are intelligently controlled to continue to work according to the control parameters at the moment of changing, the situation that a user needs to manually set the control parameters again when the positions of the carriers are changed on a heating platform is avoided, and the higher product intelligence degree is achieved.

In any of the above technical solutions, preferably, the control parameter at least includes any one or a combination of the following: maximum power, minimum power, maximum temperature, maximum heating time.

In the technical scheme, different maximum power, minimum power, maximum temperature and maximum heating time are set aiming at different carrier (pot) types, for example, a higher maximum temperature can be set aiming at a frying pan to ensure the taste of fried dishes, and a relatively lower maximum temperature is set aiming at a rice steaming pan to prevent rice from being burnt due to overhigh temperature. The maximum power of the carrier (cookware) is set, so that the power of the cookware in the cooking process is controlled not to exceed the maximum power, and the safe use of the carrier is ensured. So, different carrier types set up different control parameter for the food taste of cooking out under this control parameter is better, promotes user's satisfaction.

In any of the above technical solutions, preferably, the step of controlling the operation of the heating device corresponding to the carrier according to the control parameter according to the position information specifically includes: the heating devices are controlled to be connected in series or in parallel to adjust the heating power.

In the technical scheme, when the bottom area of a certain carrier is large, a plurality of heating devices can be covered, the working steps of the heating devices corresponding to the carrier are controlled according to control parameters, the heating devices are controlled to be connected in series or in parallel, specifically, when large heating power is needed, two heating devices can be controlled to be connected in parallel, when larger heating power is needed, more heating devices are controlled to be connected in parallel, when smaller heating power is needed, two heating devices can be controlled to be connected in series, and when smaller heating power is needed, more heating devices are controlled to be connected in series. By controlling the number of the heating devices connected in series or in parallel or in series and parallel, the multi-gear regulation and control of the heating power are realized, so that the control of the cooking process is more in line with the requirements of users.

In any of the above technical solutions, preferably, the step of controlling the operation of the heating device corresponding to the carrier according to the control parameter according to the position information further includes: and controlling the heating device to switch the positions of the coils of the inner ring and the outer ring and/or the bottom and the side surface of the heating device so as to adjust the position of the heating carrier of the heating device.

In the technical scheme, the step of controlling the heating device corresponding to the carrier to work according to the control parameters comprises the following steps: the heating device is controlled to switch the position of the coil and/or the bottom and the side of the inner ring and the outer ring of the heating device, so that the positions of the heating carrier of the heating device are intelligently adjusted in different cooking stages according to different pot types and different cooking functions, the position of the pot at the heating device is prevented from being adjusted more uniformly and artificially for heating food in the carrier by a user, and better user experience is realized.

According to a second aspect of the present invention, there is provided a control system, the heating platform comprising a plurality of heating devices, wherein the plurality of heating devices have a plurality of identical control modules or an identical control module; the control system includes: a first detecting unit for detecting a type of at least one carrier placed on the plurality of heating devices; the acquisition unit is used for acquiring the control parameters corresponding to the type of the carrier according to the detected type corresponding to the carrier; a second detection unit for detecting positional information of the carrier on the plurality of heating devices; and the first control unit is used for controlling the heating device corresponding to the carrier to work according to the position information and the control parameters.

The control system of the heating platform provided by the invention is characterized in that corresponding control parameters are preset for each type of carrier (cookware), the first detection unit detects the type of the carrier(s) placed on the plurality of heating devices, the acquisition unit acquires the preset corresponding control parameters according to the detected type corresponding to the carrier, then the second detection unit detects the position information of the carrier on the plurality of heating devices, and finally, the first control unit controls the heating devices corresponding to the carrier to work according to the control parameters corresponding to the carrier according to the detected position information. For example, present heating platform includes first heating device, second heating device, third heating device, it has rice cooker and frying pan to place the carrier at heating platform, it places on first heating device to detect the rice cooker this moment, the frying pan is placed on second heating device, just so according to the first heating device of control parameter control that the rice cooker corresponds, control parameter control second heating device according to the frying pan corresponds, when the position is changed to rice cooker and frying pan, also can be according to the pan positional information that detects, intelligence switching control parameter. According to the invention, the specific position of the carrier on the heating platform of the multi-heating device is detected, the heating device corresponding to the carrier is intelligently controlled to work, and a user does not need to send a control instruction once and again in the cooking process, so that higher product intelligence degree is achieved, and the user experience degree is effectively improved. The heating platform comprises a plurality of heating devices, the plurality of heating devices can be provided with a plurality of same control modules, for example, each heating device can be provided with one control module, and each control module is the same; the heating device can be used for cooking a plurality of rice cookers, pressure cookers, hot water kettles, health preserving kettles and other appliances, and the heating device can be used in cooperation with the carrier, so that the appliances do not need to be provided with the heating device, and the intelligent cooking function can be realized only by cooperation with the heating platform.

The control system of the heating platform according to the present invention may further have the following technical features:

in the above technical solution, preferably, when a plurality of heating apparatuses have a plurality of identical control modules, the control system of the heating platform includes: and the interaction unit is used for interacting the control parameters at the moment of change by the same control modules when the position information changes, and further continuously controlling the heating devices corresponding to the carriers to work according to the interacted control parameters.

In the technical scheme, when a plurality of heating devices of a heating platform are provided with a plurality of identical control modules, and the position of a carrier on the heating devices is changed in the cooking process, the identical control modules can interactively change the control parameters at the moment through an interaction unit, the control module of the corresponding heating device before the position of the carrier is changed and the control module of the heating device after the position of the carrier is changed can interact the control parameters at the moment through the interaction unit, or each control module of the heating platform can interact the control parameters at the moment, after the control parameters are interacted, the control module can obtain the control parameters of the carrier aiming at the position change, and then the heating devices are controlled to continue to work according to the interacted control parameters, so that the control parameters are intelligently switched when the position of the carrier is changed, and the situation that a user needs to manually set the control parameters again when the position of the carrier on the heating platform is changed is avoided, the higher product intelligent degree is achieved.

In any of the above technical solutions, preferably, when the plurality of heating apparatuses have the same control module, the control system of the heating platform further includes: and the second control unit is used for controlling the heating device corresponding to the carrier to work according to the control parameter at the change moment by the control module when the position information is changed.

In the technical scheme, when a plurality of heating devices are provided with the same control module, namely all the heating devices are controlled by one control module, in the cooking process, when the positions of carriers on the heating devices are changed, the control module is provided with control parameters at the moment of changing the positions of the carriers, and then the control module controls the heating devices to work according to the new positions of the carriers and the control parameters at the moment of changing, so that when the positions of the carriers are changed, the heating devices are intelligently controlled to continue to work according to the control parameters at the moment of changing, the situation that a user needs to manually set the control parameters again when the positions of the carriers are changed on a heating platform is avoided, and the higher product intelligence degree is achieved.

In any of the above technical solutions, preferably, the control parameter at least includes any one or a combination of the following: maximum power, minimum power, maximum temperature, maximum heating time.

In the technical scheme, different maximum power, minimum power, maximum temperature and maximum heating time are set aiming at different carrier (pot) types, for example, a higher maximum temperature can be set aiming at a frying pan to ensure the taste of fried dishes, and a relatively lower maximum temperature is set aiming at a rice steaming pan to prevent rice from being burnt due to overhigh temperature. The maximum power of the carrier (cookware) is set, so that the power of the cookware in the cooking process is controlled not to exceed the maximum power, and the safe use of the carrier is ensured. So, different carrier types set up different control parameter for the food taste of cooking out under this control parameter is better, promotes user's satisfaction.

In any of the above technical solutions, preferably, the first control unit specifically includes: and the first control subunit is used for controlling the heating devices to be connected in series or in parallel so as to adjust the heating power.

In the technical scheme, when the bottom area of a certain carrier is large, the first control subunit controls the heating devices to be connected in series or in parallel, specifically, when large heating power is needed, the first control subunit controls two heating devices to be connected in parallel, when large heating power is needed, the first control subunit controls more heating devices to be connected in parallel, when small heating power is needed, the first control subunit controls two heating devices to be connected in series, and when small heating power is needed, the first control subunit controls more heating devices to be connected in series. The number of the heating devices connected in series or in parallel or connected in series and in parallel is controlled by the first control subunit, so that multi-gear regulation and control of heating power are realized, and the control of the cooking process is more in line with the requirements of users.

In any one of the above technical solutions, preferably, the first control unit further includes: and the second control subunit is used for controlling the heating device to switch the positions of the coils of the inner ring and the outer ring and/or the bottom and the side surface of the heating device so as to adjust the position of the heating carrier of the heating device.

In this technical scheme, first control subunit control heating device switches the position of coil and/or bottom and side of its inner and outer lane, so, to different pan types, different culinary art functions, the intelligent position of adjusting heating device heating carrier in different culinary art stages, has avoided the user in order to make the food heating more even artificial adjustment pan in heating device's position in the carrier, has realized better user experience.

According to a third aspect of the present invention, there is provided a cooking appliance comprising a control system for a heating platform according to any one of the above aspects.

The cooking appliance provided by the invention comprises the control system of the heating platform in any technical scheme, so that the control system of the heating platform has all the beneficial effects, and the details are not repeated.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 shows a schematic view of a heating platform configuration according to an embodiment of the present invention;

FIG. 2 shows a schematic view of a heating platform according to another embodiment of the present invention;

FIG. 3 is a flow chart illustrating a method of controlling a heated platen according to an embodiment of the present invention;

FIG. 4 is a flow chart illustrating a method for controlling a heating stage according to another embodiment of the present invention;

FIG. 5 is a flow chart illustrating a method of controlling a heating stage according to yet another embodiment of the present invention;

FIG. 6 is a flow chart illustrating a method for controlling a heating stage according to another embodiment of the present invention;

FIG. 7 shows a schematic block diagram of a control system for a heated platen according to an embodiment of the present invention;

FIG. 8 shows a schematic block diagram of a control system for a heated platen according to another embodiment of the present invention;

fig. 9 shows a schematic structural view of a cooking appliance of an embodiment of the present invention;

FIG. 10 shows a schematic block diagram of a computer device of an embodiment of the present invention.

Reference numerals:

wherein, the corresponding relationship between the reference numbers and the component names in fig. 1 is:

100 heating platform, 102 first heating device, 104 second heating device, 106 control module A ₁108 control Module A₂110 a first carrier, 112 a second carrier;

the correspondence between reference numerals and part names in fig. 2 is:

200 heating platform, 202 first heating device, 204 second heating device, 206 control module B, 208 first carrier, 210 second carrier.

Detailed Description

So that the manner in which the above recited aspects, features and advantages of the present invention can be understood in detail, a more particular description of the invention, briefly summarized above, may be had by reference to the embodiments thereof which are illustrated in the appended drawings. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited to the specific embodiments disclosed below.

Embodiments of the first aspect of the present invention provide a method for controlling a heating platform, which is used for controlling the heating platform shown in fig. 1 and/or fig. 2. Wherein the heating platform 100 shown in fig. 1 comprises a first heating device 102 and a second heating device 104, the first heating device 102 has a control module a₁106, the second heating device 104 has a control module A ₂108, control Module A ₁106 and a control module A ₂108 are the same control modules, a first carrier 110 is placed on the first heating device 102 and a second carrier 112 is placed on the second heating device 104. The heating platform 200 shown in fig. 2 comprises a first heating device 202 and a second heating device 204, the first heating device 202 and the second heating device 204 have the same control module B206, a first carrier 208 is placed on the first heating device 202, and a second carrier 210 is placed on the second heating device 204. The types of a plurality of carriers on the heating device can be cooking types of appliances such as a rice cooker, a pressure cooker, a hot water kettle and a health preserving kettle, and are used in cooperation with the carriers through the heating platform, so that the appliances do not need to be provided with the heating device, and only need to be matched with the heating platform, and an intelligent cooking function can be realized.

A flow chart of a control method of a heating platform according to an embodiment of the present invention is shown in fig. 3, and the control method includes:

step 302, detecting the type of at least one carrier placed on a plurality of heating devices;

step 304, acquiring control parameters corresponding to the type of the carrier according to the detected type corresponding to the carrier;

step 306, detecting the position information of the carrier on a plurality of heating devices;

and 308, controlling the heating device corresponding to the carrier to work according to the control parameters according to the position information.

The control method of the heating platform provided by the invention is characterized in that corresponding control parameters are preset for each type of carrier (cookware), the type of the carrier (one or more) placed on a plurality of heating devices is detected, the preset corresponding control parameters are obtained according to the detected type corresponding to the carrier, then the position information of the carrier on the plurality of heating devices is detected, and finally, the heating device corresponding to the carrier is controlled to work according to the control parameters corresponding to the carrier according to the detected position information. For example, the control method of the heating platform is used for controlling the heating platform 100 shown in fig. 1, the heating platform 100 includes a first heating device 102 and a second heating device 104, a rice cooker and a wok are placed on a carrier of the heating platform 100, the rice cooker is placed on the first heating device 102 at this time, the wok is placed on the second heating device 104, the first heating device 102 is controlled according to control parameters corresponding to the rice cooker, the second heating device 104 is controlled according to control parameters corresponding to the wok, and when the rice cooker and the wok are replaced, control parameters can be intelligently switched according to detected position information of the wok. According to the invention, the specific position of the carrier on the heating platform of the multi-heating device is detected, the heating device corresponding to the carrier is intelligently controlled to work, and a user does not need to send a control instruction once and again in the cooking process, so that higher product intelligence degree is achieved, and the user experience degree is effectively improved.

Fig. 4 is a flow chart illustrating a control method of a heating stage according to another embodiment of the present invention, the control method is used for controlling the heating stage shown in fig. 2, wherein the method includes:

step 402, detecting the type of at least one carrier placed on a plurality of heating devices;

step 404, acquiring a control parameter corresponding to the type of the carrier according to the detected type corresponding to the carrier;

step 406, detecting position information of the carrier on a plurality of heating devices;

step 408, controlling the heating device corresponding to the carrier to work according to the control parameters according to the position information;

and step 410, when the position information changes, the plurality of same control modules interactively change the control parameters at the moment, and further continuously control the heating devices corresponding to the carriers to work according to the interacted control parameters.

In one embodiment of the present invention, preferably, when a plurality of heating apparatuses have a plurality of identical control modules, the control method of the heating stage further includes: when the position information changes, the same control modules interactively change the control parameters at the moment, and then the heating devices corresponding to the carriers are continuously controlled to work according to the control parameters after interaction.

In this embodiment, when the plurality of heating devices of the heating platform have a plurality of identical control modules, and during the cooking process, when the position of the carrier on the heating device changes, the control parameters at the time of the interactive change of the plurality of identical control modules may be the control parameters at the time of the interactive change of the control modules of the heating device corresponding to the position change of the carrier before the position change of the carrier and the control modules of the heating device after the position change of the carrier, or the control parameters at the time of the interactive change of each control module of the heating platform, after the control parameters are interacted, the control modules acquire the control parameters for the carrier with the changed position, and then the heating device is controlled to continue to operate according to the interacted control parameters, so that the control parameters are intelligently switched when the position of the carrier changes, and the situation that the user needs to manually reset the control parameters when the position of the carrier on the heating platform changes is avoided, the higher product intelligent degree is achieved.

Fig. 5 is a flow chart illustrating a control method of a heating stage according to still another embodiment of the present invention, the control method being used for controlling the heating stage shown in fig. 1, wherein the method includes:

step 502, detecting the type of at least one carrier placed on a plurality of heating devices;

step 504, acquiring a control parameter corresponding to the type of the carrier according to the detected type corresponding to the carrier;

step 506, detecting position information of the carrier on a plurality of heating devices;

step 508, controlling the heating device corresponding to the carrier to work according to the control parameters according to the position information;

step 510, when the position information changes, the control module controls the heating device corresponding to the carrier to work according to the control parameter at the change time.

In an embodiment of the present invention, preferably, when a plurality of heating apparatuses have the same control module, the control method of the heating stage further includes: when the position information changes, the control module controls the heating device corresponding to the carrier to work according to the control parameters at the changing moment.

In the embodiment, when a plurality of heating devices have the same control module, that is, all the heating devices are controlled by one control module, and in the cooking process, when the position of the carrier on the heating device is changed, the control module has control parameters at the moment of changing the position of the carrier, and then the control module controls the heating devices to work according to the new position of the carrier and the control parameters at the moment of changing, so that when the position of the carrier is changed, the heating devices are intelligently controlled to continue to work according to the control parameters at the moment of changing, the situation that a user needs to manually set the control parameters again when the position of the carrier is changed on a heating platform is avoided, and the higher product intelligence degree is achieved.

Fig. 6 shows a schematic flow chart of a control method of a heating platform according to a further embodiment of the present invention, the control method is used for controlling the heating platform shown in fig. 1 and/or fig. 2, wherein the method comprises:

step 602, detecting the type of at least one carrier placed on a plurality of heating devices;

step 604, acquiring a control parameter corresponding to the type of the carrier according to the detected type corresponding to the carrier;

step 606, detecting the position information of the carrier on a plurality of heating devices;

step 608, controlling the heating devices to be connected in series or in parallel to adjust the heating power;

and step 610, controlling the heating device to switch the positions of the coils of the inner ring and the outer ring and/or the positions of the bottom and the side surface so as to adjust the position of the heating device for heating the carrier.

In one embodiment of the present invention, preferably, the control parameters include at least any one or a combination of the following: maximum power, minimum power, maximum temperature, maximum heating time.

In this embodiment, different maximum powers, minimum powers, maximum temperatures and maximum heating times are set for different types of carriers (pans), for example, a higher maximum temperature can be set for a wok to ensure the taste of the wok, and a relatively lower maximum temperature is set for a rice cooker to prevent rice from being burnt due to an excessively high temperature. The maximum power of the carrier (cookware) is set, so that the power of the cookware in the cooking process is controlled not to exceed the maximum power, and the safe use of the carrier is ensured. So, different carrier types set up different control parameter for the food taste of cooking out under this control parameter is better, promotes user's satisfaction.

In an embodiment of the present invention, preferably, the step of controlling, according to the control parameter and based on the position information, the operation of the heating device corresponding to the carrier specifically includes: the heating devices are controlled to be connected in series or in parallel to adjust the heating power.

In this embodiment, when the bottom area of a certain carrier is large, a plurality of heating devices can be covered, and the step of controlling the operation of the heating device corresponding to the carrier according to the control parameter includes controlling the heating devices to be connected in series or in parallel, specifically, when a large heating power is required, two heating devices can be controlled to be connected in parallel, when a large heating power is required, more heating devices can be controlled to be connected in parallel, when a small heating power is required, two heating devices can be controlled to be connected in series, and when a small heating power is required, more heating devices can be controlled to be connected in series. By controlling the number of the heating devices connected in series or in parallel or in series and parallel, the multi-gear regulation and control of the heating power are realized, so that the control of the cooking process is more in line with the requirements of users.

In an embodiment of the present invention, preferably, the step of controlling, according to the position information and the control parameter, the operation of the heating device corresponding to the carrier further includes: and controlling the heating device to switch the positions of the coils of the inner ring and the outer ring and/or the bottom and the side surface of the heating device so as to adjust the position of the heating carrier of the heating device.

In this embodiment, the step of controlling the operation of the heating device corresponding to the carrier according to the control parameter includes: the heating device is controlled to switch the position of the coil and/or the bottom and the side of the inner ring and the outer ring of the heating device, so that the positions of the heating carrier of the heating device are intelligently adjusted in different cooking stages according to different pot types and different cooking functions, the position of the pot at the heating device is prevented from being adjusted more uniformly and artificially for heating food in the carrier by a user, and better user experience is realized.

In a second aspect of the present invention, a control system 700 for a heating platform is provided, and fig. 7 shows a block diagram of the control system 700 for a heating platform according to an embodiment of the present invention:

a first detecting unit 702 for detecting a type of at least one carrier placed on the plurality of heating apparatuses;

an obtaining unit 704, configured to obtain, according to the type corresponding to the detected carrier, a control parameter corresponding to the type of carrier;

a second detection unit 706 for detecting positional information of the carrier on the plurality of heating means;

and the first control unit 708 is used for controlling the heating device corresponding to the carrier to work according to the control parameters according to the position information.

The control system 700 of the heating platform provided by the invention is characterized in that corresponding control parameters are preset for each type of carrier (cookware), the first detection unit 702 detects the type of the carrier(s) placed on a plurality of heating devices, the acquisition unit 704 acquires the preset corresponding control parameters according to the detected type corresponding to the carrier, then the second detection unit 706 detects the position information of the carrier on the plurality of heating devices, and finally the first control unit 708 controls the heating device corresponding to the carrier to work according to the control parameters corresponding to the carrier according to the detected position information. For example, heating platform's control system 700 is used for controlling heating platform 100 as shown in fig. 1, heating platform 100 includes first heating device 102, second heating device 104, the carrier of placing at heating platform 100 has rice steamer and frying pan, detect the rice steamer and place on first heating device 102 this moment, the frying pan is placed on second heating device 104, just so according to the first heating device 102 of control parameter control that the rice steamer corresponds, control second heating device 104 according to the control parameter control that the frying pan corresponds, when rice steamer and frying pan change position, also can be according to the pan positional information that detects, intelligence switching control parameter. According to the invention, the specific position of the carrier on the heating platform of the multi-heating device is detected, the heating device corresponding to the carrier is intelligently controlled to work, and a user does not need to send a control instruction once and again in the cooking process, so that higher product intelligence degree is achieved, and the user experience degree is effectively improved. The heating platform comprises a plurality of heating devices, the plurality of heating devices can be provided with a plurality of same control modules, for example, each heating device can be provided with one control module, and each control module is the same; it is also possible for a plurality of heating devices to have one control module.

Fig. 8 shows a schematic block diagram of a control system 800 for a heated platen according to another embodiment of the present invention. Wherein, heating platform's control system 800 includes:

a first detecting unit 802 for detecting a type of at least one carrier placed on the plurality of heating apparatuses;

an obtaining unit 804, configured to obtain, according to the detected type corresponding to the carrier, a control parameter corresponding to the type of the carrier;

a second detecting unit 806 for detecting positional information of the carrier on the plurality of heating means;

the first control unit 808 is used for controlling the heating device corresponding to the carrier to work according to the control parameters according to the position information;

the interaction unit 810 is configured to, when the plurality of heating devices of the heating platform controlled by the control system 800 of the heating platform have a plurality of identical control modules, and when the position information changes, interactively change the control parameters at the moment by the plurality of identical control modules, and further continue to control the heating devices corresponding to the carriers to work according to the control parameters after interaction;

a second control unit 812, configured to, when the plurality of heating devices of the heating platform controlled by the control system 800 of the heating platform have the same control module, control the heating device corresponding to the carrier to operate according to the control parameter at the change time when the position information changes.

The first control unit 808 specifically includes:

a first control subunit 8082, configured to control the heating apparatuses to be connected in series or in parallel to adjust heating power;

the second control subunit 8084 is used for controlling the heating device to switch the positions of the coils of the inner ring and the outer ring and/or the bottom and the side surface of the heating device, so as to adjust the position of the heating carrier of the heating device.

In one embodiment of the present invention, preferably, when a plurality of heating apparatuses have a plurality of identical control modules, the control system of the heating stage includes: and the interaction unit 810 is configured to, when the position information changes, interact and change the control parameter at the moment by a plurality of identical control modules, and further continue to control the heating device corresponding to the carrier to operate according to the interacted control parameter.

In this embodiment, when the plurality of heating devices of the heating platform have a plurality of identical control modules, and during the cooking process, when the position of the carrier on the heating device changes, the plurality of identical control modules interact with the control parameter at the time of changing through the interaction unit 810, the control module of the corresponding heating device before the position of the carrier changes and the control module of the heating device after the position of the carrier changes interact with the control parameter at the time of changing through the interaction unit, or each control module of the heating platform interacts with the control parameter at the time of changing, after the control parameters interact, the control module obtains the control parameter for the carrier with changed position, and further controls the heating device to continue to work according to the control parameter after interaction, so that when the position of the carrier changes, the control parameters are intelligently switched, and the situation that the user needs to manually set the control parameter again when the position of the body of the heating platform changes is avoided, the higher product intelligent degree is achieved.

In one embodiment of the present invention, preferably, when a plurality of heating apparatuses have the same control module, the control system of the heating platform further includes: and a second control unit 812, configured to, when the position information changes, control the heating device corresponding to the carrier to operate according to the control parameter at the time of the change.

In the embodiment, when a plurality of heating devices have the same control module, that is, all the heating devices are controlled by one control module, and in the cooking process, when the position of the carrier on the heating device is changed, the control module has control parameters at the moment of changing the position of the carrier, and then the control module controls the heating devices to work according to the new position of the carrier and the control parameters at the moment of changing, so that when the position of the carrier is changed, the heating devices are intelligently controlled to continue to work according to the control parameters at the moment of changing, the situation that a user needs to manually set the control parameters again when the position of the carrier is changed on a heating platform is avoided, and the higher product intelligence degree is achieved.

In one embodiment of the present invention, preferably, the control parameters include at least any one or a combination of the following: maximum power, minimum power, maximum temperature, maximum heating time.

In this embodiment, different maximum powers, minimum powers, maximum temperatures and maximum heating times are set for different types of carriers (pans), for example, a higher maximum temperature can be set for a wok to ensure the taste of the wok, and a relatively lower maximum temperature is set for a rice cooker to prevent rice from being burnt due to an excessively high temperature. The maximum power of the carrier (cookware) is set, so that the power of the cookware in the cooking process is controlled not to exceed the maximum power, and the safe use of the carrier is ensured. So, different carrier types set up different control parameter for the food taste of cooking out under this control parameter is better, promotes user's satisfaction.

In an embodiment of the present invention, preferably, the first control unit 808 specifically includes: the first control subunit 8082 is used for controlling the heating devices to be connected in series or in parallel to adjust the heating power.

In this embodiment, when the bottom area of a certain carrier is larger, the first control subunit 8082 controls the heating devices to be connected in series or in parallel, specifically, when a larger heating power is required, the first control subunit 8082 controls two heating devices to be connected in parallel, when a larger heating power is required, the first control subunit 8082 controls more heating devices to be connected in parallel, when a smaller heating power is required, the first control subunit 8082 controls two heating devices to be connected in series, and when a smaller heating power is required, the first control subunit 8082 controls more heating devices to be connected in series. The number of the heating devices connected in series or in parallel or in series and parallel is controlled by the first control subunit 8082, so that the multi-gear regulation and control of the heating power are realized, and the control of the cooking process is more in line with the requirements of users.

In an embodiment of the present invention, preferably, the first control unit 808 further includes: the second control subunit 8084 is used for controlling the heating device to switch the positions of the coils of the inner ring and the outer ring and/or the bottom and the side surface of the heating device, so as to adjust the position of the heating carrier of the heating device.

In this embodiment, the first control subunit 8084 controls the heating device to switch the position of the coil and/or the bottom and the side of the inner ring and/or the outer ring, so that the position of the heating device for heating the carrier is intelligently adjusted in different cooking stages according to different types of cookware and different cooking functions, thereby avoiding the user from manually adjusting the position of the cookware in the heating device in order to heat food in the carrier more uniformly, and achieving better user experience.

In a third aspect of the present invention, a cooking appliance 900 is provided, and fig. 9 shows a schematic structural diagram of the cooking appliance 900 according to an embodiment of the present invention. Wherein the cooking appliance 900 comprises the control system 902 of the heating platform of any of the embodiments described above.

The cooking appliance 900 provided by the invention comprises the control system 902 of the heating platform according to any one of the above technical solutions, so that the control system 902 of the heating platform has all the beneficial effects, which are not described herein again.

In a fourth aspect of the present invention, a computer device is provided, and fig. 10 shows a schematic block diagram of a computer device 1000 according to an embodiment of the present invention. Wherein the computer device 1000 comprises:

a memory 1002, a processor 1004, and a computer program stored on the memory 1002 and executable on the processor 1004, the processor 1004 when executing the computer program implementing the steps of: detecting a type of at least one carrier placed on the plurality of heating devices; acquiring a control parameter corresponding to the type of the carrier according to the detected type corresponding to the carrier; detecting position information of the carrier on the plurality of heating devices; and controlling the heating device corresponding to the carrier to work according to the control parameters according to the position information.

In the computer device 1000 provided by the present invention, the processor 1004 implements the following when executing the computer program: the method comprises the steps of setting corresponding control parameters for each type of carrier (cookware) in advance, detecting the type of the carrier(s) placed on a plurality of heating devices, acquiring the preset corresponding control parameters according to the detected type corresponding to the carrier, then detecting the position information of the carrier on the plurality of heating devices, and finally controlling the heating device corresponding to the carrier to work according to the control parameters corresponding to the carrier according to the detected position information. According to the invention, the specific position of the carrier on the heating platform of the multi-heating device is detected, the heating device corresponding to the carrier is intelligently controlled to work, and a user does not need to send a control instruction once and again in the cooking process, so that higher product intelligence degree is achieved, and the user experience degree is effectively improved. The heating platform comprises a plurality of heating devices, the plurality of heating devices can be provided with a plurality of same control modules, for example, each heating device can be provided with one control module, and each control module is the same; it is also possible for a plurality of heating devices to have one control module.

An embodiment of the fifth aspect of the present invention provides a computer readable storage medium having a computer program stored thereon, the computer program, when executed by a processor, implementing the steps of: detecting a type of at least one carrier placed on the plurality of heating devices; acquiring a control parameter corresponding to the type of the carrier according to the detected type corresponding to the carrier; detecting position information of the carrier on the plurality of heating devices; and controlling the heating device corresponding to the carrier to work according to the control parameters according to the position information.

The present invention provides a computer-readable storage medium having stored thereon a computer program which, when executed by a processor, implements: the method comprises the steps of setting corresponding control parameters for each type of carrier (cookware) in advance, detecting the type of the carrier(s) placed on a plurality of heating devices, acquiring the preset corresponding control parameters according to the detected type corresponding to the carrier, then detecting the position information of the carrier on the plurality of heating devices, and finally controlling the heating device corresponding to the carrier to work according to the control parameters corresponding to the carrier according to the detected position information. According to the invention, the specific position of the carrier on the heating platform of the multi-heating device is detected, the heating device corresponding to the carrier is intelligently controlled to work, and a user does not need to send a control instruction once and again in the cooking process, so that higher product intelligence degree is achieved, and the user experience degree is effectively improved. The heating platform comprises a plurality of heating devices, the plurality of heating devices can be provided with a plurality of same control modules, for example, each heating device can be provided with one control module, and each control module is the same; it is also possible for a plurality of heating devices to have one control module.

In the description herein, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (11)

1. A control method of a heating platform is characterized in that the heating platform comprises a plurality of heating devices, wherein the plurality of heating devices are provided with a plurality of same control modules or the same control module; the control method comprises the following steps:

detecting a type of the at least one carrier placed on the plurality of heating devices;

acquiring control parameters corresponding to the type of the carrier according to the detected type corresponding to the carrier, wherein different control parameters are set according to different types;

detecting positional information of the carrier on the plurality of heating devices;

controlling the heating device corresponding to the carrier to work according to the control parameters according to the position information;

when the position information changes, the same control module controls the heating device corresponding to the carrier to work according to the control parameters at the change moment.

2. The method of claim 1, when the plurality of heating apparatuses have a plurality of identical control modules, further comprising:

when the position information changes, the same control modules interactively change the control parameters at the moment, and then the heating devices corresponding to the carriers are continuously controlled to work according to the control parameters after interaction.

3. The method of claim 1 or 2, wherein the control parameters comprise at least one or a combination of the following: maximum power, minimum power, maximum temperature, maximum heating time.

4. The method for controlling a heating platform according to claim 3, wherein the step of controlling the heating device corresponding to the carrier to operate according to the control parameter according to the position information specifically comprises:

and controlling the heating devices to be connected in series or in parallel to adjust the heating power.

5. The method for controlling a heating platform according to claim 3, wherein the step of controlling the heating device corresponding to the carrier to operate according to the control parameter according to the position information further comprises:

and controlling the heating device to switch the positions of the coils of the inner ring and the outer ring and/or the bottom and the side surface of the heating device so as to adjust the position of the heating device for heating the carrier.

6. A control system of a heating platform is characterized in that the heating platform comprises a plurality of heating devices, wherein the plurality of heating devices are provided with a plurality of same control modules or the same control module; the control system includes:

a first detecting unit for detecting a type of the at least one carrier placed on the plurality of heating devices;

an obtaining unit, configured to obtain, according to a detected type corresponding to the carrier, a control parameter corresponding to the carrier of the type, where different types set different control parameters;

a second detection unit for detecting positional information of the carrier on the plurality of heating devices;

the first control unit is used for controlling the heating device corresponding to the carrier to work according to the control parameters according to the position information;

and the second control unit is used for controlling the heating device corresponding to the carrier to work by the same control module according to the control parameter at the change moment when the position information changes.

7. The control system for a heating platform according to claim 6, when the plurality of heating devices have a plurality of identical control modules, further comprising:

and the interaction unit is used for interacting the control parameters at the moment of changing by the plurality of same control modules when the position information changes, and further continuously controlling the heating devices corresponding to the carriers to work according to the interacted control parameters.

8. The control system of claim 6 or 7, wherein the control parameters comprise at least any one or a combination of the following: maximum power, minimum power, maximum temperature, maximum heating time.

9. The control system of claim 8, wherein the first control unit comprises:

the first control subunit is used for controlling the heating devices to be connected in series or in parallel so as to adjust the heating power.

10. The control system of claim 8, wherein the first control unit further comprises:

and the second control subunit is used for controlling the heating device to switch the positions of the coils of the inner ring and the outer ring and/or the bottom and the side surface of the heating device so as to adjust the position of the heating device for heating the carrier.

11. A cooking appliance comprising a control system of a heating platform as claimed in any one of claims 6 to 10.

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