CN109407523B - Control method and control system of heating platform assembly - Google Patents

Abstract

The invention provides a control method of a heating platform assembly, a control system of the heating platform assembly, a computer device and a computer readable storage medium. The control method of the heating platform assembly is used for a cooking appliance, the heating platform assembly comprises a heating platform, a first heating part and a second heating part, the first heating part and the second heating part are respectively arranged on the heating platform, and the control method of the heating platform assembly comprises the following steps: receiving a starting instruction of cooking, and controlling to receive first verification data from the first heating part and second verification data from the second heating part; judging whether the first check data is matched with the second check data; after matching is successful, controlling to receive a first working parameter value from the first heating part and a second working parameter value from the second heating part; and controlling the heating platform to work according to the first working parameter value and the second working parameter value. The method realizes intelligent distribution of energy when the heating platform assembly works.

Description

Control method and control system of heating platform assembly

Technical Field

The invention relates to the field of household appliances, in particular to a control method of a heating platform assembly, a control system of the heating platform assembly, a computer device and a computer readable storage medium.

Background

At present, a household electric wire and a socket both have a limited maximum current, when a plurality of electric products use one socket simultaneously, if the total working power of the electric products is greater than the total power which can be borne by the electric wire or the socket, the electric wire and the socket are easy to age under the condition of long-time use, and further dangerous conditions such as electric leakage, fire and the like are caused. In the related art, energy distribution among electrical products is performed through wired communication modes such as UART (Universal Asynchronous Receiver/Transmitter), IIC (Inter-Integrated Circuit bus) and the like, and the total power of the electrical products during simultaneous operation is limited within a safety limit power range. When the electric products are separated and no wire communication mode is available or can not be added, the problem of energy distribution function between the separated electric products is urgently needed to be solved through a wireless communication mode, and the electric products are safer and more intelligent to use.

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 invention proposes a method of controlling a heating platform assembly.

A second aspect of the invention provides a control system for a heated platform assembly.

A third aspect of the invention provides a heated platform assembly.

A fourth aspect of the invention provides a computer apparatus.

A fifth aspect of the present invention proposes a computer-readable storage medium.

In view of the above, a first aspect of the present invention provides a method for controlling a heating platform assembly, which is used for a cooking appliance, the heating platform assembly includes a heating platform, a first heating portion and a second heating portion, the first heating portion and the second heating portion are respectively disposed on the heating platform, and the method for controlling the heating platform assembly includes: receiving a starting instruction of cooking, and controlling to receive first verification data from the first heating part and second verification data from the second heating part; judging whether the first check data is matched with the second check data; after matching is successful, controlling to receive a first working parameter value from the first heating part and a second working parameter value from the second heating part; and controlling the heating platform to work according to the first working parameter value and the second working parameter value.

The invention provides a control method of a heating platform assembly, which comprises the following steps: receiving a cooking starting instruction, controlling to receive first check data from the first heating part and second check data from the second heating part, judging whether the first check data and the second check data are matched, and taking a judgment result as a basis for judging whether the first heating part and the second heating part which transmit signals are two heating parts on the same heating platform, so that the situation that the operation burden of a heating platform assembly is increased due to the fact that external interference data are received mistakenly is avoided; furthermore, after the matching is successful, it is stated that the first heating part and the second heating part are arranged on the same heating platform, and then the control receives the first working parameter value from the first heating part and the second working parameter value from the second heating part, and the heating platform is controlled to work according to the first working parameter value and the second working parameter value, that is, the first working parameter value and the second working parameter value are reasonably configured for the energy used for heating by the first heating part and the second heating part is reasonably distributed, and then the heating platform is ensured to be always in a safe use range, so that the intelligent control of the heating platform assembly is realized. Meanwhile, the method solves the problem of energy distribution among the heating platform components in a wireless transmission mode, so that the use of the heating platform components is not limited by space factors such as distance and position, an intelligent cooking function is realized, the use of a user is greatly facilitated, and the user can make different layout structure adjustments according to personal preferences or room space structures.

According to the control method of the heating platform assembly, the following additional technical characteristics can be provided:

in the above technical solution, preferably, the control method of the heating platform assembly further includes: when the matching fails, accumulating the times of the matching failure; comparing the accumulated matching failure times with a preset time; stopping matching when the matching failure times are larger than the preset times; when the number of times of the matching failure is less than the preset number of times, control receives again the first verification data from the first heating part and the second verification data of the second heating part.

In the technical scheme, after the matching fails, the accumulated matching failure times are compared with the preset times, the matching failure times are limited, and when the matching failure times are larger than the preset times, the matching is stopped, so that the situations that the operation burden of a heating platform is increased and the energy consumption is increased due to multiple times of meaningless matching of two heating parts which are not on the same heating platform are avoided; when the matching failure times are smaller than the preset times, the control receives the first verification data from the first heating part and the second verification data from the second heating part again, and the situation that the heating platform cannot be controlled to work due to the fact that the first verification data and the second verification data fail to be matched due to accidental external data interference can be avoided.

In any of the above technical solutions, preferably, the value range of the preset times is: 3 times to 10 times.

In the technical scheme, the value range of the preset times is reasonably set, so that the situations that the operation burden of the heating platform is increased and the energy consumption is increased due to multiple times of meaningless matching of two heating parts which are not on the same heating platform can be avoided, and the situation that the heating platform cannot be controlled due to failure in matching of the first check data and the second check data caused by accidental external data interference can be avoided. Specifically, the preset number of times is preferably 5 times.

In any of the above technical solutions, preferably, the control method of the heating platform assembly further includes: and after the matching is successful, receiving an input instruction within the preset time, and canceling the matching.

In the technical scheme, when the matching is successful, if an emergency occurs, if the user thinks that the energy supply of the environment where the user is located is enough to meet the energy requirement of the heating platform assembly, the user can manually input an instruction to cancel the successful matching, so that the heating platform assembly can freely work according to the actual energy requirement.

In any of the above technical solutions, preferably, the step of controlling the heating platform to operate according to the first operating parameter value and the second operating parameter value specifically includes: and when the sum of the first working parameter value and the second working parameter value is larger than the preset working parameter value, reducing the first working parameter value or the second working parameter value until the sum of the first working parameter value and the second working parameter value is smaller than the preset working parameter value.

In the technical scheme, when the sum of the first working parameter value and the second working parameter value is greater than the preset working parameter value, it is indicated that the energy requirements of the first heating part and the second heating part already exceed the preset limit value of the energy supply of the heating platform, and therefore measures must be taken at this time to reduce the first working parameter value of the first heating part or reduce the second working parameter value of the second heating part until the sum of the first working parameter value and the second working parameter value is less than the preset working parameter value, and the purpose of intelligently controlling the energy distribution of the heating platform assembly is further achieved.

In any of the above technical solutions, preferably, the first operating parameter value and the second operating parameter value respectively include: power; the first check data and the second check data respectively include: and (4) ID.

In the technical scheme, the power is a main measurement index of the energy supplied by the heating platform, and the sum of the heating power of the first heating part and the heating power of the second heating part is controlled to be smaller than the maximum power of the heating platform, so that the normal work of a heating platform assembly can be ensured, and appliances can be prevented from being burnt, even dangerous situations can be avoided; the first check data and the second check data respectively include: ID, different heating parts have different IDs, that is, the ID may serve as identification data of the different heating parts.

A second aspect of the present invention provides a control system for a heating platform assembly, which is used for a cooking appliance, the heating platform assembly includes a heating platform, a first heating portion and a second heating portion, the first heating portion and the second heating portion are respectively disposed on the heating platform, and the control system for the heating platform assembly includes: a first receiving unit for receiving a start instruction of cooking and controlling to receive first verification data from the first heating part and second verification data of the second heating part; the first judging unit is used for judging whether the first check data is matched with the second check data; the second receiving unit is used for controlling and receiving the first working parameter value from the first heating part and the second working parameter value of the second heating part after the matching is successful; a control unit: and controlling the heating platform to work according to the first working parameter value and the second working parameter value.

The invention provides a control system of a heating platform assembly, which comprises: the device comprises a first receiving unit, a first judging unit, a second receiving unit and a control unit. The first receiving unit is arranged to receive a cooking starting instruction, control and receive first verification data from the first heating part and second verification data from the second heating part, and provide a verification source for subsequent data verification; furthermore, the first judging unit is arranged for judging whether the first check data is matched with the second check data, and taking the judgment result as the basis of whether the first heating part and the second heating part for transmitting signals are two heating parts on the same heating platform, so that the situation that the operation burden of the heating platform assembly is increased due to the fact that other external data are received by mistake is avoided; further, the second receiving unit is arranged so that after the matching is successful, it is stated that the first heating part and the second heating part are arranged on the same heating platform, and further, the first working parameter value from the first heating part and the second working parameter value from the second heating part are controlled to be received; furthermore, the control unit is arranged to control the heating platform to work according to the first working parameter value and the second working parameter value, namely, the first working parameter value of the first heating part and the second working parameter value of the second heating part are reasonably configured, so that the energy used for heating by the first heating part and the second heating part is reasonably distributed, the heating platform is ensured to be always in a safe use range, and the intelligent control of the heating platform assembly is realized. Meanwhile, the control system is arranged in a manner of solving the problem of energy distribution among the heating platform components in a wireless transmission manner, so that the use of the heating platform components is not limited by space factors such as distance and position, an intelligent cooking function is realized, the use of a user is greatly facilitated, and the user can make different layout structure adjustments according to personal preferences or room space structures.

In the above technical solution, preferably, the control system of the heating platform assembly further includes: the counting unit is used for accumulating the times of matching failure after the matching failure; comparing the accumulated matching failure times with a preset time; stopping matching when the matching failure times are larger than the preset times; when the number of times of the matching failure is less than the preset number of times, control receives again the first verification data from the first heating part and the second verification data of the second heating part.

In the technical scheme, the counting unit is arranged, so that after the matching fails, the accumulated matching failure times are compared with the preset times, the matching failure times are limited, and when the matching failure times are larger than the preset times, the matching is stopped, so that the situations that the operation burden of the heating platform is increased and the energy consumption is increased due to multiple meaningless matching of two heating parts which are not on the same heating platform are avoided; when the matching failure times are smaller than the preset times, the control unit receives the first check data from the first heating part and the second check data from the second heating part again, and the step can avoid the situation that the heating platform cannot be controlled to work due to the fact that the first check data and the second check data are failed to be matched due to accidental external data interference.

In any of the above technical solutions, preferably, the value range of the preset times is: 3 times to 10 times.

In the technical scheme, the value range of the preset times is reasonably set, so that the situations that the operation burden of the heating platform is increased and the energy consumption is increased due to multiple times of meaningless matching of two heating parts which are not on the same heating platform can be avoided, and the situation that the heating platform cannot be controlled due to failure in matching of the first check data and the second check data caused by accidental external data interference can be avoided. Specifically, the preset number of times is preferably 5 times.

In any of the above technical solutions, preferably, the control system of the heating platform assembly further includes: and the first execution unit is used for receiving an input instruction within preset time after the matching is successful and canceling the matching.

In the technical scheme, the first execution unit is arranged, so that when matching is successful, if an emergency occurs, if a user thinks that the energy supply of the environment where the user is located is enough to meet the energy requirement of the heating platform assembly, the user can manually input an instruction to cancel the successful matching, and further the heating platform assembly can freely work according to the actual energy requirement.

In any one of the above technical solutions, preferably, the control unit includes: and the second execution unit is used for reducing the first working parameter value or the second working parameter value when the sum of the first working parameter value and the second working parameter value is larger than the preset working parameter value until the sum of the first working parameter value and the second working parameter value is smaller than the preset working parameter value.

In the technical scheme, by setting the second execution unit, when the sum of the first working parameter value and the second working parameter value is greater than the preset working parameter value, it is indicated that the energy demand of the first heating part and the second heating part has exceeded the preset limit value of the energy supply of the heating platform, so measures must be taken at this time to reduce the first working parameter value of the first heating part or reduce the second working parameter value of the second heating part until the sum of the first working parameter value and the second working parameter value is less than the preset working parameter value, and the purpose of intelligently controlling the energy distribution of the heating platform assembly is further achieved.

In any of the above technical solutions, preferably, the first operating parameter value and the second operating parameter value respectively include: power; the first check data and the second check data respectively include: and (4) ID.

In the technical scheme, the power is a main measurement index of the energy supplied by the heating platform, and the sum of the heating power of the first heating part and the heating power of the second heating part is controlled to be smaller than the maximum power of the heating platform, so that the normal work of a heating platform assembly can be ensured, and appliances can be prevented from being burnt, even dangerous situations can be avoided; the first check data and the second check data respectively include: ID, different heating parts have different IDs, that is, the ID may serve as identification data of the different heating parts.

A third aspect of the invention provides a heated platen assembly comprising: a control system for a heated platen assembly as described in the second aspect.

The heating platform assembly provided by the present invention includes the control system of the heating platform assembly according to any one of the second aspects, so that the control system of the heating platform assembly has all the advantages of the control system of the heating platform assembly, which are not described herein.

A fourth aspect of the present invention provides a computer device, comprising a memory, a processor and a computer program stored on the memory and executable on the processor, wherein the processor implements the steps of the method for controlling a heating platform assembly as described in any one of the above first aspects when executing the computer program.

The invention provides a computer device comprising: the processor receives a starting instruction of cooking when executing the computer program, controls and receives first check data from the first heating part and second check data of the second heating part, judges whether the first check data and the second check data are matched, and takes a judgment result as a basis for judging whether the first heating part and the second heating part which transmit signals are two heating parts on the same heating platform or not, thereby avoiding the occurrence of the condition that the operation burden of the heating platform assembly is increased due to the mistaken reception of external interference data; furthermore, after the matching is successful, it is stated that the first heating part and the second heating part are arranged on the same heating platform, and then the control receives the first working parameter value from the first heating part and the second working parameter value from the second heating part, and the heating platform is controlled to work according to the first working parameter value and the second working parameter value, that is, the first working parameter value and the second working parameter value are reasonably configured for the energy used for heating by the first heating part and the second heating part is reasonably distributed, and then the heating platform is ensured to be always in a safe use range, so that the intelligent control of the heating platform assembly is realized. Meanwhile, the method solves the problem of energy distribution among the heating platform components in a wireless transmission mode, so that the use of the heating platform components is not limited by space factors such as distance and position, an intelligent cooking function is realized, the use of a user is greatly facilitated, and the user can make different layout structure adjustments according to personal preferences or room space structures.

A fifth aspect of the present invention proposes a computer-readable storage medium having stored thereon a computer program which, when being executed by a processor, carries out the steps of the method of controlling a heating platform assembly as set forth in any one of the above-mentioned first aspects.

The computer readable storage medium provided by the invention, when being executed by a processor, realizes receiving a start instruction of cooking, controls and receives first check data from a first heating part and second check data from a second heating part, judges whether the first check data and the second check data are matched, and takes a judgment result as a basis of whether the first heating part and the second heating part which transmit signals are two heating parts on the same heating platform, thereby avoiding the occurrence of the situation that the operation burden of a heating platform assembly is increased due to the mistaken reception of external interference data; furthermore, after the matching is successful, it is stated that the first heating part and the second heating part are arranged on the same heating platform, and then the control receives the first working parameter value from the first heating part and the second working parameter value from the second heating part, and the heating platform is controlled to work according to the first working parameter value and the second working parameter value, that is, the first working parameter value and the second working parameter value are reasonably configured for the energy used for heating by the first heating part and the second heating part is reasonably distributed, and then the heating platform is ensured to be always in a safe use range, so that the intelligent control of the heating platform assembly is realized. Meanwhile, the method solves the problem of energy distribution among the heating platform components in a wireless transmission mode, so that the use of the heating platform components is not limited by space factors such as distance and position, an intelligent cooking function is realized, the use of a user is greatly facilitated, and the user can make different layout structure adjustments according to personal preferences or room space structures.

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 flow diagram of a method of controlling a heated platen assembly according to a first embodiment of the present invention;

FIG. 2 is a schematic flow chart diagram illustrating a method of controlling a heated platen assembly in accordance with a second embodiment of the present invention;

FIG. 3 shows a schematic flow diagram of a method of controlling a heated platen assembly of a third embodiment of the present invention;

FIG. 4 shows a schematic flow chart of a control method of a heating stage assembly of a fourth embodiment of the present invention;

FIG. 5 shows a schematic flow chart of a control method of a heated platen assembly of a fifth embodiment of the present invention;

FIG. 6 shows a schematic block diagram of a control system for the heated platen assembly of the first embodiment of the present invention;

FIG. 7 shows a schematic block diagram of a control system for a heated platen assembly of a second embodiment of the present invention;

FIG. 8 shows a schematic block diagram of a control system for a heated platen assembly of a third embodiment of the present invention;

FIG. 9 shows a schematic block diagram of a control system for a heated platen assembly of a fourth embodiment of the present invention;

FIG. 10 shows a schematic block diagram of a control system for a heated platen assembly of a fifth embodiment of the present invention;

FIG. 11 illustrates a schematic structural view of a heated platen assembly of one embodiment of the present invention;

FIG. 12 shows a schematic block diagram of a computer apparatus of an embodiment of the present invention.

Wherein, the correspondence between the reference numbers and the names of the components in fig. 11 is:

11 heating platen assembly, 110 heating platen, 112 first heating section, 1122 first controller, 1124 first communication device, 114 second heating section, 1142 second controller, 1144 second communication device.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, a more particular description of the invention will be rendered by reference to 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 by the specific embodiments disclosed below.

A method of controlling a heated platen assembly, a system for controlling a heated platen assembly, a heated platen assembly 11, a computer device, and a computer-readable storage medium according to some embodiments of the present invention are described below with reference to fig. 1-12.

Fig. 1 shows a schematic flow diagram of a control method of a heated platform assembly according to a first embodiment of the invention.

As shown in fig. 1, a method 100 for controlling a heated platen assembly according to a first embodiment of the first aspect of the present invention includes:

s102, receiving a starting instruction of cooking, and controlling to receive first verification data from the first heating part and second verification data of the second heating part;

s104, judging whether the first check data is matched with the second check data;

s106, after matching is successful, controlling to receive a first working parameter value from the first heating part and a second working parameter value of the second heating part;

and S108, controlling the heating platform to work according to the first working parameter value and the second working parameter value.

The invention provides a control method of a heating platform assembly, which comprises the following steps: receiving a cooking starting instruction, controlling to receive first check data from the first heating part and second check data from the second heating part, judging whether the first check data and the second check data are matched, and taking a judgment result as a basis for judging whether the first heating part and the second heating part which transmit signals are two heating parts on the same heating platform, so that the situation that the operation burden of a heating platform assembly is increased due to the fact that external interference data are received mistakenly is avoided; furthermore, after the matching is successful, it is stated that the first heating part and the second heating part are arranged on the same heating platform, and then the control receives the first working parameter value from the first heating part and the second working parameter value from the second heating part, and the heating platform is controlled to work according to the first working parameter value and the second working parameter value, that is, the first working parameter value and the second working parameter value are reasonably configured for the energy used for heating by the first heating part and the second heating part is reasonably distributed, and then the heating platform is ensured to be always in a safe use range, so that the intelligent control of the heating platform assembly is realized. Meanwhile, the method solves the problem of energy distribution among the heating platform components in a wireless transmission mode, so that the use of the heating platform components is not limited by space factors such as distance and position, an intelligent cooking function is realized, the use of a user is greatly facilitated, and the user can make different layout structure adjustments according to personal preferences or room space structures.

Fig. 2 shows a schematic flow diagram of a control method of a heating platform assembly according to a second embodiment of the invention.

As shown in fig. 2, a method 200 for controlling a heated platen assembly according to a second embodiment of the first aspect of the present invention includes:

s202, receiving a starting instruction of cooking;

s204, controlling to receive first verification data from the first heating part and second verification data of the second heating part;

s206, matching the first check data with the second check data; if the determination result in the step S206 is that the first check data and the second check data are matched, the process goes to a step S208;

s208, after matching is successful, controlling to receive a first working parameter value from the first heating part and a second working parameter value of the second heating part; in the above steps, if the determination result in step S206 is that the first check data and the second check data do not match, step S212 is performed;

s210, controlling the heating platform to work according to the first working parameter value and the second working parameter value;

s212, when the matching fails, accumulating the times of the matching failure;

s214, the accumulated matching failure times are larger than the preset times; if the accumulated matching failure times are smaller than the preset times as a result of the determination in step S214, the process proceeds to step S204.

In the embodiment, after the matching fails, the accumulated matching failure times are compared with the preset times, the matching failure times are limited, and when the matching failure times are larger than the preset times, the matching is stopped, so that the situations that the operation burden of the heating platform is increased and the energy consumption is increased due to multiple times of meaningless matching of two heating parts which are not on the same heating platform are avoided; when the matching failure times are smaller than the preset times, the control receives the first verification data from the first heating part and the second verification data from the second heating part again, and the situation that the heating platform cannot be controlled to work due to the fact that the first verification data and the second verification data fail to be matched due to accidental external data interference can be avoided.

In an embodiment of the present invention, preferably, the range of the preset times is: 3 times to 10 times.

In this embodiment, by reasonably setting the value range of the preset times, the situations that the operation burden of the heating platform is increased and the energy consumption is increased due to multiple times of meaningless matching of two heating parts which are not on the same heating platform can be avoided, and the situation that the heating platform cannot be controlled due to failure in matching of the first check data and the second check data caused by accidental external data interference can be avoided. Specifically, the preset number of times is preferably 5 times.

Fig. 3 shows a schematic flow diagram of a control method of a heating platform assembly according to a third embodiment of the invention.

As shown in fig. 3, a method 300 of controlling a heated platen assembly according to a third embodiment of the first aspect of the present invention includes:

s302, receiving a starting instruction of cooking;

s304, controlling to receive first verification data from the first heating part and second verification data of the second heating part;

s306, matching the first check data with the second check data; if the judgment result of the step S306 is that the first check data and the second check data are matched, the step S308 is entered; if the determination result in the step S306 is that the first check data and the second check data are not matched, go to step S314;

s308, receiving an input instruction within a preset time; if the determination result in step S308 is that the input instruction is not received within the preset time, step S310 is entered; if the determination result in step S308 is that the input command is received within the preset time, step S318 is performed;

s310, controlling to receive a first operating parameter value from the first heating part and a second operating parameter value from the second heating part;

s312, controlling the heating platform to work according to the first working parameter value and the second working parameter value;

s314, accumulating the times of matching failure after the matching failure;

s316, the accumulated matching failure times are more than the preset times; if the judgment result of the step S316 is that the accumulated matching failure times are less than the preset times, the step S304 is performed;

and S318, canceling the matching.

In this embodiment, when the matching is successful, if an emergency occurs, for example, the user thinks that the energy supply of the environment where the user is located is sufficient to meet the energy requirement of the heating platform assembly, the user can manually input an instruction to cancel the successful matching, so that the heating platform assembly can freely work according to the actual energy requirement.

Fig. 4 shows a schematic flow diagram of a control method of a heating platform assembly according to a fourth embodiment of the invention.

As shown in fig. 4, a method 400 for controlling a heated platen assembly according to a fourth embodiment of the first aspect of the present invention includes:

s402, receiving a starting instruction of cooking;

s404, controlling to receive first verification data from the first heating part and second verification data of the second heating part;

s406, matching the first check data with the second check data; if the determination result in the step S406 is that the first check data and the second check data are matched, the process proceeds to a step S408;

s408, after matching is successful, controlling to receive a first working parameter value from the first heating part and a second working parameter value of the second heating part; in the above step, if the determination result in step S406 is that the first check data and the second check data do not match, step S412 is performed;

s410, when the sum of the first working parameter value and the second working parameter value is larger than the preset working parameter value, reducing the first working parameter value or the second working parameter value until the sum of the first working parameter value and the second working parameter value is smaller than the preset working parameter value;

s412, when the matching fails, accumulating the times of the matching failure;

s414, the accumulated matching failure times are more than the preset times; if the accumulated matching failure times are smaller than the preset times as a result of the determination in step S414, the process proceeds to step S404.

In this embodiment, when the sum of the first operating parameter value and the second operating parameter value is greater than the preset operating parameter value, it indicates that the energy demand of the first heating unit and the second heating unit has exceeded the preset limit value of the energy supply of the heating platform, and therefore, measures must be taken to reduce the first operating parameter value of the first heating unit or reduce the second operating parameter value of the second heating unit until the sum of the first operating parameter value and the second operating parameter value is less than the preset operating parameter value, thereby achieving the purpose of intelligently controlling the energy distribution of the heating platform assembly.

In one embodiment of the present invention, preferably, the first operating parameter value and the second operating parameter value respectively include: power; the first check data and the second check data respectively include: and (4) ID.

In the embodiment, the power is a main measurement index of the energy supplied by the heating platform, and the sum of the heating power of the first heating part and the heating power of the second heating part is controlled to be smaller than the maximum power of the heating platform, so that the normal work of the heating platform assembly can be ensured, and appliances can be prevented from being burnt, even dangerous situations can be avoided; the first check data and the second check data respectively include: ID, different heating parts have different IDs, that is, the ID may serve as identification data of the different heating parts.

Fig. 5 shows a schematic flow chart of a control method of a heating stage assembly according to a fifth embodiment of the present invention.

As shown in fig. 5, a control method 500 of the heating platform assembly according to the fifth embodiment of the first aspect of the present invention includes:

s502, receiving a starting instruction of cooking;

s504, controlling to receive first verification data from the first heating part and second verification data of the second heating part;

s506, matching the first check data with the second check data; if the determination result in the step S506 is that the first check data and the second check data are matched, the process proceeds to a step S508; if the determination result in the step S506 is that the first check data and the second check data do not match, the process goes to a step S514;

s508, receiving an input instruction within a preset time; if the determination result in the step S508 is that the input instruction is not received within the preset time, go to step S510; if the determination result in the step S508 is that the input instruction is received within the preset time, go to step S518;

s510, controlling to receive a first working parameter value from the first heating part and a second working parameter value from the second heating part;

s512, when the sum of the first working parameter value and the second working parameter value is larger than the preset working parameter value, reducing the first working parameter value or the second working parameter value until the sum of the first working parameter value and the second working parameter value is smaller than the preset working parameter value;

s514, when the matching fails, accumulating the times of the matching failure;

s516, the accumulated matching failure times are larger than the preset times; if the judgment result of the step S516 is that the accumulated matching failure times are less than the preset times, the step S504 is entered;

and S518, canceling the matching.

Fig. 6 shows a schematic block diagram of a control system of the heating platform assembly according to a first embodiment of the invention.

As shown in fig. 6, a control system 600 for a heated platform assembly according to a first embodiment of the second aspect of the present invention comprises:

a first receiving unit 602, configured to receive a start instruction of cooking, and control to receive first verification data from the first heating part and second verification data of the second heating part;

a first judging unit 604, configured to judge whether the first check data and the second check data match;

a second receiving unit 606, configured to control to receive the first operating parameter value from the first heating unit and the second operating parameter value of the second heating unit after matching is successful;

the control unit 608: and controlling the heating platform to work according to the first working parameter value and the second working parameter value.

The present invention provides a control system 600 for a heated platform assembly comprising: a first receiving unit 602, a first judging unit 604, a second receiving unit 606, and a control unit 608. By arranging the first receiving unit 602, receiving a start instruction of cooking, controlling to receive first verification data from the first heating part and second verification data from the second heating part, and providing a verification source for subsequent data verification; further, the first determining unit 604 is configured to determine whether the first check data and the second check data are matched, and use the determination result as a basis for determining whether the first heating part and the second heating part that transmit the signal are two heating parts on the same heating platform, thereby avoiding occurrence of a situation that an operation load of the heating platform assembly is increased due to erroneous reception of other external data; further, the second receiving unit 606 is configured to, after the matching is successful, indicate that the first heating unit and the second heating unit are disposed on the same heating platform, and further control to receive a first operating parameter value from the first heating unit and a second operating parameter value from the second heating unit; further, the control unit 608 sets up to control the heating platform to operate according to the first operating parameter value and the second operating parameter value, that is, by reasonably configuring the first operating parameter value of the first heating part and the second operating parameter value of the second heating part, the energy used for heating by the first heating part and the second heating part is reasonably distributed, thereby ensuring that the heating platform is always in the safe use range, and realizing the intelligent control of the heating platform assembly. Meanwhile, the control system is arranged in a manner of solving the problem of energy distribution among the heating platform components in a wireless transmission manner, so that the use of the heating platform components is not limited by space factors such as distance and position, an intelligent cooking function is realized, the use of a user is greatly facilitated, and the user can make different layout structure adjustments according to personal preferences or room space structures.

Fig. 7 shows a schematic block diagram of a control system of a heated platen assembly according to a second embodiment of the present invention.

As shown in fig. 7, a control system 700 for a heated platen assembly according to a second embodiment of the second aspect of the present invention includes:

a first receiving unit 702 for receiving a start instruction of cooking and controlling to receive first verification data from the first heating part and second verification data of the second heating part;

a first judging unit 704 configured to judge whether the first check data and the second check data match;

a second receiving unit 706, configured to control to receive the first operating parameter value from the first heating unit and the second operating parameter value of the second heating unit after matching is successful;

the control unit 708: controlling the heating platform to work according to the first working parameter value and the second working parameter value;

a counting unit 710, configured to accumulate the number of matching failures after a matching failure; comparing the accumulated matching failure times with a preset time; stopping matching when the matching failure times are larger than the preset times; when the number of times of the matching failure is less than the preset number of times, control receives again the first verification data from the first heating part and the second verification data of the second heating part.

In this embodiment, by setting the counting unit 710, after the matching fails, the accumulated matching failure times are compared with the preset times, the matching failure times are limited, and when the matching failure times are greater than the preset times, the matching is stopped, so that the situations that the running load of the heating platform is increased and the energy consumption is increased due to multiple meaningless matching of two heating parts which are not on the same heating platform are avoided; when the matching failure times are smaller than the preset times, the control unit receives the first check data from the first heating part and the second check data from the second heating part again, and the step can avoid the situation that the heating platform cannot be controlled to work due to the fact that the first check data and the second check data are failed to be matched due to accidental external data interference.

In an embodiment of the present invention, preferably, the range of the preset times is: 3 times to 10 times.

In this embodiment, by reasonably setting the value range of the preset times, the situations that the operation burden of the heating platform is increased and the energy consumption is increased due to multiple times of meaningless matching of two heating parts which are not on the same heating platform can be avoided, and the situation that the heating platform cannot be controlled due to failure in matching of the first check data and the second check data caused by accidental external data interference can be avoided. Specifically, the preset number of times is preferably 5 times.

Fig. 8 shows a schematic block diagram of a control system of a heated platform assembly according to a third embodiment of the present invention.

As shown in fig. 8, a control system 800 for a heated platen assembly according to a third embodiment of the second aspect of the present invention includes:

a first receiving unit 802 for receiving a start instruction of cooking and controlling to receive first verification data from the first heating part and second verification data of the second heating part;

a first judging unit 804, configured to judge whether the first check data and the second check data match;

a second receiving unit 806, configured to, after matching is successful, control to receive a first operating parameter value from the first heating unit and a second operating parameter value of the second heating unit;

the control unit 808: controlling the heating platform to work according to the first working parameter value and the second working parameter value;

a counting unit 810, configured to accumulate the number of matching failures after a matching failure; comparing the accumulated matching failure times with a preset time; stopping matching when the matching failure times are larger than the preset times; when the number of times of matching failure is less than the preset number of times, controlling to receive the first verification data from the first heating part and the second verification data from the second heating part again;

and a first execution unit 812, configured to receive an input instruction within a preset time after matching is successful, and cancel the matching.

In this embodiment, the first execution unit 812 is configured such that, when the matching is successful, if an emergency occurs, the user may manually input an instruction to cancel the matching that has been successful if the energy supply of the environment where the user is located is enough to meet the energy requirement of the heating platform assembly, so that the heating platform assembly can freely work according to the actual energy requirement.

Fig. 9 shows a schematic block diagram of a control system of a heated platen assembly according to a fourth embodiment of the present invention.

As shown in fig. 9, a control system 900 for a heated platen assembly according to a fourth embodiment of the second aspect of the present invention includes:

a first receiving unit 902, configured to receive a start instruction of cooking, and control to receive first verification data from the first heating part and second verification data of the second heating part;

a first judging unit 904 configured to judge whether the first check data and the second check data match;

a second receiving unit 906, configured to control to receive the first operating parameter value from the first heating unit and the second operating parameter value of the second heating unit after matching is successful;

the control unit 908: controlling the heating platform to work according to the first working parameter value and the second working parameter value, comprising:

the second execution unit 9082 is configured to, when the sum of the first operating parameter value and the second operating parameter value is greater than the preset operating parameter value, decrease the first operating parameter value or the second operating parameter value until the sum of the first operating parameter value and the second operating parameter value is less than the preset operating parameter value;

a counting unit 910, configured to accumulate the number of matching failures after a matching failure; comparing the accumulated matching failure times with a preset time; stopping matching when the matching failure times are larger than the preset times; when the number of times of the matching failure is less than the preset number of times, control receives again the first verification data from the first heating part and the second verification data of the second heating part.

In this embodiment, the second execution unit 9082 is configured to, when the sum of the first operating parameter value and the second operating parameter value is greater than the preset operating parameter value, indicate that the energy demand of the first heating unit and the second heating unit has exceeded the preset limit for energy supply to the heating platform, so measures must be taken at this time to reduce the first operating parameter value of the first heating unit or reduce the second operating parameter value of the second heating unit until the sum of the first operating parameter value and the second operating parameter value is less than the preset operating parameter value, thereby achieving the purpose of intelligently controlling energy distribution of the heating platform assembly.

In one embodiment of the present invention, preferably, the first operating parameter value and the second operating parameter value respectively include: power; the first check data and the second check data respectively include: and (4) ID.

In the embodiment, the power is a main measurement index of the energy supplied by the heating platform, and the sum of the heating power of the first heating part and the heating power of the second heating part is controlled to be smaller than the maximum power of the heating platform, so that the normal work of the heating platform assembly can be ensured, and appliances can be prevented from being burnt, even dangerous situations can be avoided; the first check data and the second check data respectively include: ID, different heating parts have different IDs, that is, the ID may serve as identification data of the different heating parts.

Fig. 10 shows a schematic block diagram of a control system of a heating platform assembly according to a fifth embodiment of the present invention.

As shown in fig. 10, a control system 1000 of the heating stage assembly according to the fifth embodiment of the second aspect of the present invention includes:

a first receiving unit 1002 for receiving a start instruction of cooking and controlling to receive first verification data from the first heating part and second verification data of the second heating part;

a first judgment unit 1004 for judging whether the first check data and the second check data match;

a second receiving unit 1006, configured to control to receive the first operating parameter value from the first heating unit and the second operating parameter value of the second heating unit after matching is successful;

the control unit 1008: controlling the heating platform to work according to the first working parameter value and the second working parameter value, comprising:

the second executing unit 1010 is configured to, when the sum of the first operating parameter value and the second operating parameter value is greater than the preset operating parameter value, decrease the first operating parameter value or the second operating parameter value until the sum of the first operating parameter value and the second operating parameter value is less than the preset operating parameter value;

a counting unit 1012, configured to accumulate the number of matching failures after a matching failure; comparing the accumulated matching failure times with a preset time; stopping matching when the matching failure times are larger than the preset times; when the number of times of matching failure is less than the preset number of times, controlling to receive the first verification data from the first heating part and the second verification data from the second heating part again;

the first execution unit 1014 is configured to, after matching is successful, receive an input instruction within a preset time, and cancel the matching.

As shown in fig. 11, the embodiment of the third aspect of the present invention provides a heating platform assembly 11, which includes the control system of the heating platform assembly 11 according to the embodiment of the second aspect of the present invention.

The heating platform assembly 11 provided by the present invention includes the control system of the heating platform assembly 11 according to the second embodiment, so that all the advantages of the control system of the heating platform assembly 11 are provided, which is not described herein.

In a particular embodiment, as illustrated in FIG. 11, the heated platen assembly 11 includes a heated platen 110, a first heated portion 112, and a second heated portion 114. The first heating part 112 is provided with a first controller 1122 and a first communication device 1124, the second heating part 114 is provided with a second communication device 1144 and a second controller 1142, and the heating platform 110 is provided with a third controller and a third communication device. After receiving a cooking start instruction, the first controller 1122 and the second controller 1142 respectively control the first communication device 1124 and the second communication device 1144 to send first calibration data and second calibration data to the third communication device, the third communication device sends the received first calibration data and second calibration data to the third controller, the third controller controls the first calibration data and the second calibration data to be matched, when the matching is successful, the third controller controls the third communication device to receive a first working parameter value and a second working parameter value respectively from the first communication device 1124 and the second communication device 1144, and the third controller controls the heating platform 110 to operate according to the first working parameter value and the second working parameter value received by the third communication device. The first communication device 1124 and the second communication device 1144 each include one of the following: radio frequency communication device, WIFI communication device and bluetooth communication device.

As shown in fig. 11, the heated platen assembly 11 includes a heated platen 110, a first heated portion 112, and a second heated portion 114. The first heating part 112 is provided with a first controller 1122 and a first communication device 1124, and the second heating part 114 is provided with a second communication device 1144 and a second controller 1142. After receiving the cooking start instruction, the first controller 1122 controls the first communication device 1124 to receive the second verification data from the second communication device 1144, the first controller 1122 matches the first verification data of the first controller 1122 according to the received second verification data, when the matching is successful, the first controller 1122 controls the first communication device 1124 to receive the second working parameter value from the second communication device 1144, and the first controller 1122 controls the heating platform 110 to work according to the received second working parameter value in combination with the first working parameter value of the first controller 1122. The first communication device 1124 and the second communication device 1144 each include one of the following: radio frequency communication device, WIFI communication device and bluetooth communication device.

As shown in fig. 11, the heated platen assembly 11 includes a heated platen 110, a first heated portion 112, and a second heated portion 114. The first heating part 112 is provided with a first controller 1122 and a first communication device 1124, and the second heating part 114 is provided with a second communication device 1144 and a second controller 1142. After receiving the cooking start instruction, the second controller 1142 controls the second communication device 1144 to receive the first calibration data from the first communication device 1124, the second controller 1142 matches the received first calibration data with the second calibration data of the second controller 1142, when the matching is successful, the second controller 1142 controls the second communication device 1144 to receive the first working parameter value from the first communication device 1124, and the second controller 1142 controls the heating platform 110 to work according to the received first working parameter value in combination with the second working parameter value of the second controller 1142. The first communication device 1124 and the second communication device 1144 each include one of the following: radio frequency communication device, WIFI communication device and bluetooth communication device.

As shown in fig. 12, an embodiment of the fourth aspect of the present invention provides a computer device 120, which includes a memory 122, a processor 124 and a computer program stored on the memory 122 and executable on the processor 124, wherein the processor 124 implements the steps of the control method for heating the platform assembly according to the embodiment of the first aspect when executing the computer program.

The present invention provides a computer device 120 comprising: the processor 124 receives a start instruction of cooking when executing the computer program, controls to receive first check data from the first heating part and second check data from the second heating part, judges whether the first check data and the second check data are matched, and uses the judgment result as a basis for judging whether the first heating part and the second heating part of a transmission signal are two heating parts on the same heating platform, thereby avoiding the occurrence of the situation that the operation burden of the heating platform assembly is increased due to the mistaken reception of external interference data; furthermore, after the matching is successful, it is stated that the first heating part and the second heating part are arranged on the same heating platform, and then the control receives the first working parameter value from the first heating part and the second working parameter value from the second heating part, and the heating platform is controlled to work according to the first working parameter value and the second working parameter value, that is, the first working parameter value and the second working parameter value are reasonably configured for the energy used for heating by the first heating part and the second heating part is reasonably distributed, and then the heating platform is ensured to be always in a safe use range, so that the intelligent control of the heating platform assembly is realized. Meanwhile, the method solves the problem of energy distribution among the heating platform components in a wireless transmission mode, so that the use of the heating platform components is not limited by space factors such as distance and position, an intelligent cooking function is realized, the use of a user is greatly facilitated, and the user can make different layout structure adjustments according to personal preferences or room space structures.

An embodiment of a fifth aspect of the present invention proposes a computer-readable storage medium having stored thereon a computer program which, when being executed by a processor, carries out the steps of the method of controlling a heating platform assembly according to an embodiment of the first aspect.

The computer readable storage medium provided by the invention, when being executed by a processor, realizes receiving a start instruction of cooking, controls and receives first check data from a first heating part and second check data from a second heating part, judges whether the first check data and the second check data are matched, and takes a judgment result as a basis of whether the first heating part and the second heating part which transmit signals are two heating parts on the same heating platform, thereby avoiding the occurrence of the situation that the operation burden of a heating platform assembly is increased due to the mistaken reception of external interference data; furthermore, after the matching is successful, it is stated that the first heating part and the second heating part are arranged on the same heating platform, and then the control receives the first working parameter value from the first heating part and the second working parameter value from the second heating part, and the heating platform is controlled to work according to the first working parameter value and the second working parameter value, that is, the first working parameter value and the second working parameter value are reasonably configured for the energy used for heating by the first heating part and the second heating part is reasonably distributed, and then the heating platform is ensured to be always in a safe use range, so that the intelligent control of the heating platform assembly is realized. Meanwhile, the method solves the problem of energy distribution among the heating platform components in a wireless transmission mode, so that the use of the heating platform components is not limited by space factors such as distance and position, an intelligent cooking function is realized, the use of a user is greatly facilitated, and the user can make different layout structure adjustments according to personal preferences or room space structures.

In the present invention, the term "plurality" means two or more unless explicitly defined otherwise. The terms "mounted," "connected," "fixed," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, a removable connection, or an integral connection; "coupled" may be direct or indirect through an intermediary. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

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 (13)

1. A control method of a heating platform assembly is used for a cooking appliance, and is characterized in that the heating platform assembly comprises a heating platform, a first heating part and a second heating part, wherein the first heating part and the second heating part are respectively arranged on the heating platform, and the control method of the heating platform assembly comprises the following steps:

receiving a starting instruction of cooking, and controlling to receive first verification data from the first heating part and second verification data from the second heating part;

judging whether the first check data is matched with the second check data;

after matching is successful, controlling to receive a first working parameter value from the first heating part and a second working parameter value from the second heating part;

controlling the heating platform to work according to the first working parameter value and the second working parameter value;

when the matching fails, accumulating the times of the matching failure;

comparing the accumulated matching failure times with preset times;

stopping matching when the matching failure times are larger than the preset times;

when the number of times of the matching failure is less than a preset number of times, controlling to receive again first verification data from the first heating part and second verification data of the second heating part.

2. The method of claim 1,

the value range of the preset times is as follows: 3 times to 10 times.

3. The method of controlling a heated platen assembly of claim 1 or 2, further comprising:

and after the matching is successful, receiving an input instruction within a preset time, and canceling the matching.

4. The method of controlling a heated platen assembly of claim 1 or 2,

the step of controlling the heating platform to work according to the first working parameter value and the second working parameter value specifically includes:

and when the sum of the first working parameter value and the second working parameter value is larger than a preset working parameter value, reducing the first working parameter value or the second working parameter value until the sum of the first working parameter value and the second working parameter value is smaller than the preset working parameter value.

5. The method of controlling a heated platen assembly of claim 1 or 2,

the first and second operating parameter values respectively include: power;

the first check-up data and the second check-up data respectively include: and (4) ID.

6. A control system of a heating platform assembly for a cooking appliance, the heating platform assembly comprising a heating platform, a first heating portion and a second heating portion, the first heating portion and the second heating portion being respectively disposed on the heating platform, the control system of the heating platform assembly comprising:

a first receiving unit, configured to receive a start instruction of cooking, and control to receive first verification data from the first heating part and second verification data of the second heating part;

a first judging unit configured to judge whether the first check data and the second check data match;

the second receiving unit is used for controlling and receiving a first working parameter value from the first heating part and a second working parameter value of the second heating part after matching is successful;

a control unit: controlling the heating platform to work according to the first working parameter value and the second working parameter value;

the counting unit is used for accumulating the times of matching failure after the matching failure; comparing the accumulated matching failure times with preset times; stopping matching when the matching failure times are larger than the preset times; when the number of times of the matching failure is less than a preset number of times, controlling to receive again first verification data from the first heating part and second verification data of the second heating part.

7. The control system for a heated platen assembly of claim 6,

the value range of the preset times is as follows: 3 times to 10 times.

8. The control system for a heated platen assembly of claim 6 or 7, further comprising:

and the first execution unit is used for receiving an input instruction within preset time after the matching is successful and canceling the matching.

9. The control system of the heated platen assembly of claim 6 or 7,

the control unit includes:

and the second execution unit is used for reducing the first working parameter value or the second working parameter value when the sum of the first working parameter value and the second working parameter value is larger than a preset working parameter value until the sum of the first working parameter value and the second working parameter value is smaller than the preset working parameter value.

10. The control system of the heated platen assembly of claim 6 or 7,

the first and second operating parameter values respectively include: power;

the first check-up data and the second check-up data respectively include: and (4) ID.

11. A heated platen assembly (11), comprising:

a control system for a heated platen assembly as claimed in any of claims 6 to 10.

12. A computer arrangement comprising a memory, a processor and a computer program stored on the memory and executable on the processor, characterized in that the processor implements the steps of the method of controlling a heating platform assembly according to any one of claims 1 to 5 when executing the computer program.

13. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method of controlling a heating platform assembly according to any one of claims 1 to 5.

Images