CN113566242A - Intelligent stove control system and control method thereof - Google Patents

Abstract

The application relates to an intelligent stove control system and a method thereof. The system comprises a temperature detection module, a mobile terminal, control equipment and firepower adjusting equipment; the temperature detection module is configured to detect the temperature of the cooker to obtain the current temperature of the cooker; the mobile terminal is configured to generate cooking curve data according to preset recipe parameters; the control equipment is respectively connected with the temperature control module and the mobile terminal and is configured to transmit a fire power adjusting signal to the fire power adjusting equipment according to the received current stove temperature and cooking curve data; the firepower adjusting equipment is connected with the control equipment and configured to receive firepower adjusting signals, and according to the firepower adjusting signals, the firepower of the cooker is controlled, and intelligent cooking of the menu is achieved. This application can be intelligent with the menu, and through typing in the dish parameter in advance, the user only needs put into corresponding dish and condiment according to mobile terminal's suggestion, need not oneself manual regulation firepower, can realize the culinary art to the dish, has greatly strengthened the intellectuality of menu.

Description

Intelligent stove control system and control method thereof

Technical Field

The application relates to the technical field of stove control, in particular to an intelligent stove control system and a control method thereof.

Background

With the development of intellectualization, the intelligent cooker becomes one of essential kitchen supplies at home. And the intellectualization of the existing cooking utensils mainly relates to the application of modules such as linkage with a smoke machine and the like, and certain local exhibition exists. Traditional cooking utensils adopt manual regulation firepower usually, to the user that can not cook, adjust in the aspect of fire カ experience and to the inevitable hand in a busy or foot disorder, burn the condition of being burnt or not ripe very easily, seriously influence the experience of cooking and feel.

In the implementation process, the inventor finds that at least the following problems exist in the conventional technology: manual control is usually adopted in the cooking process of the traditional cooker, and the intelligent degree of the cooking process is low.

Disclosure of Invention

Therefore, in order to solve the above technical problems, it is necessary to provide an intelligent cooker control system and a control method thereof, which can automatically adjust cooking time and fire power and enhance the intelligence of cooking recipes.

An intelligent range control system comprising:

the temperature detection module is configured to detect the temperature of the cooker to obtain the current temperature of the cooker;

the mobile terminal is configured to generate cooking curve data according to preset recipe parameters;

the control equipment is respectively connected with the temperature control module and the mobile terminal, is configured to receive the current cooker temperature and cooking curve data, and transmits a fire adjusting signal to the fire adjusting equipment according to the current cooker temperature and cooking curve data;

the firepower adjusting device is connected with the control device and configured to receive firepower adjusting signals and control the firepower of the cooker according to the firepower adjusting signals.

In one embodiment, the mobile terminal is further configured to obtain a recipe cooking video corresponding to the preset recipe parameter, and play the recipe cooking video.

In one embodiment, the control device comprises a controller and a wireless communication module connected with the controller; the controller is respectively connected with the temperature detection module and the fire power adjusting equipment; the wireless communication module is in communication connection with the mobile terminal.

In one embodiment, the wireless communication module is a bluetooth communication module.

In one embodiment, the fire extinguishing protection device is configured to control a valve of the cooking appliance to be closed when the fire of the cooking appliance is detected to be extinguished.

In one embodiment, the flame-out protection device is a thermocouple flame-out protection device or an ion-sensitive needle flame-out protection device.

In one embodiment, the fire adjustment device includes a proportional valve coupled to the controller.

In one embodiment, the cooking profile data includes temperature profile data;

the control equipment is also used for comparing the current cooker temperature with the temperature curve data, generating a firepower adjusting signal according to the processing result, and transmitting the firepower adjusting signal to the firepower adjusting equipment so that the firepower adjusting equipment can adjust the firepower of the cooker.

A control method of an intelligent cooker comprises the following steps:

receiving cooking curve data transmitted by the temperature detection module and the current stove temperature and firepower adjusting equipment;

transmitting a fire adjusting signal to fire adjusting equipment according to the current stove temperature and cooking curve data; the firepower adjusting signal is used for indicating firepower adjusting equipment to control firepower of the cooker.

In one embodiment, the cooking profile data includes temperature profile data; the step of transmitting a fire adjustment signal to the fire adjustment device according to the current cooker temperature and cooking curve data comprises:

comparing the current stove temperature with temperature curve data;

and generating a firepower adjusting signal according to the processing result, and transmitting the firepower adjusting signal to firepower adjusting equipment so that the firepower adjusting equipment adjusts the firepower of the stove.

One of the above technical solutions has the following advantages and beneficial effects:

the intelligent stove control system is respectively connected with the temperature control module, the mobile terminal and the control device through the control device; the user can control the mobile terminal, and parameters such as the weight, the type and the like of the cooking menu are input into the mobile terminal in a preset mode, namely the preset menu parameters are obtained by the mobile terminal; the mobile terminal generates corresponding cooking curve data according to preset recipe parameters and transmits the cooking curve data to the control equipment; the temperature detection module can detect the temperature of the cooker in real time so as to obtain the current temperature of the cooker and transmit the obtained current temperature of the cooker to the control equipment; the control device can receive the current cooker temperature and cooking curve data and transmit a firepower adjusting signal to the firepower adjusting device according to the current cooker temperature and cooking curve data, so that the firepower adjusting device is configured to control the firepower of the cooker according to the firepower adjusting signal, and intelligent cooking of a menu is realized. This application can be intelligent with the menu, through the condiment etc. of typing in the required time of dish step and firepower size and needs interpolation in advance, the user only needs put into corresponding dish and condiment according to mobile terminal's suggestion, need not oneself manual regulation firepower, can realize the culinary art to the dish, has greatly strengthened the intellectuality of menu.

Drawings

Fig. 1 is a schematic view of a first structure of an intelligent cooker control system in an embodiment of the present application.

Fig. 2 is a second structural schematic diagram of an intelligent cooker control system in the embodiment of the present application.

Fig. 3 is a third structural schematic diagram of an intelligent cooker control system in an embodiment of the present application.

Fig. 4 is a schematic circuit diagram of a thermocouple flameout protection device in an embodiment of the present application.

Fig. 5 is a schematic circuit diagram of a temperature detection module in an embodiment of the present application.

Fig. 6 is a schematic circuit diagram of a proportional valve in an embodiment of the present application.

Fig. 7 is a schematic flowchart of a control method of an intelligent cooker in an embodiment of the present application.

Detailed Description

To facilitate an understanding of the present application, the present application will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present application are shown in the drawings. This application may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "connected" to another element, it can be directly connected to the other element and be integral therewith, or intervening elements may also be present. The terms "mounted," "one end," "the other end," and the like are used herein for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein in the description of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

In one embodiment, as shown in fig. 1, there is provided an intelligent cooker control system including a temperature detection module 110, a mobile terminal 120, a control device 130, and a fire adjustment device 140. The temperature detection module 110 is configured to detect the temperature of the cooker to obtain the current temperature of the cooker; the mobile terminal 120 is configured to generate cooking curve data according to preset recipe parameters; the control device 130 is respectively connected to the temperature control module and the mobile terminal 120, and is configured to receive the current cooker temperature and cooking curve data and transmit a fire power adjusting signal to the fire power adjusting device 140 according to the current cooker temperature and cooking curve data; the fire power adjusting device 140 is connected to the control device 130, and is configured to receive the fire power adjusting signal and control the fire power of the cooker according to the fire power adjusting signal.

Wherein, the temperature detection module 110 can be an infrared temperature detection module 110, and can be used for detecting the temperature of the kitchen range. In one example, the temperature detection module 110 may be disposed proximate to the cooktop, and the temperature detection module 110 may also be disposed on the range hood. The temperature detection module 110 may include a temperature probe that is aimed at the cooktop. The mobile terminal 120 may be, but is not limited to, a cell phone and a smart tablet. The user can control the mobile terminal 120, and parameters such as the food material and seasoning weight of the recipe to be cooked, the cooking time and the like are input into the mobile terminal 120, so that the mobile terminal 120 obtains preset recipe parameters, and further the mobile terminal 120 can generate cooking curve data according to the preset recipe parameters. In an example, the mobile terminal 120 may further obtain a cooking recipe of the cloud server through networking, and generate corresponding cooking curve data according to the cooking recipe of the cloud server, and then the cooking parameter does not need to be manually set, and only the corresponding cooking recipe needs to be selected, and the mobile terminal 120 may generate corresponding cooking curve data according to the selection of the user, so that the intelligent degree of the intelligent oven cooking is further improved.

The cooking profile data may include temperature data and time data; different temperatures may be used for different time periods. For example, the time data may be divided into a first time period, a second time period, a third time period, a fourth time period, and the like according to cooked dishes. Wherein the first time period may be a preset time period, the second time period may be a time period for adding dishes, the third time period may be a time period for formal cooking, and the fourth time period may be a time period for adding seasonings. The temperature data can be divided into a plurality of periods of temperature according to the division of the time data, for example, the temperature corresponding to the first period of time is greater than the temperature of the second period of time, the temperature of the third period of time is greater than the temperature of the second period of time, and the like, and the temperature of the fourth period of time is less than the temperature of the third period of time. It should be noted that the temperature value for each time period can be determined according to specific cooking dishes and historical cooking experience data.

The control device 130 may be configured to be connected to the temperature detecting module 110 and the power adjusting device 140, respectively, and the control device 130 may further establish a communication connection with the mobile terminal 120. After the control device 130 establishes a communication connection with the mobile terminal 120, the mobile terminal 120 may transmit the cooking profile data to the control device 130, and the control device 130 may receive the cooking profile data. The temperature detection module 110 may detect the temperature of the cooker, and transmit the detected current cooker temperature to the control device 130, and the control device 130 may receive the current cooker temperature. The control device 130 may also be used to generate a fire adjustment signal according to the received current cooker temperature and cooking curve data, and transmit the generated fire adjustment signal to the fire adjustment device 140. In one example, the control device 130 may compare the current cooker temperature with the cooking curve data and generate a fire power adjustment signal according to the result of the processing. For example, the control device 130 may generate a fire power increase signal when the temperature of the current cooker is less than the temperature of the corresponding time point in the cooking curve data according to the result of the processing, and transmit the fire power increase signal to the fire power adjustment device 140 so that the fire power adjustment device 140 increases the fire power of the cooker according to the fire power increase signal. For another example, the control device 130 may generate a fire power reduction signal according to the processing result when the temperature of the current cooker is higher than the temperature at the corresponding time point in the cooking curve data, and transmit the fire power reduction signal to the fire power adjustment device 140, so that the fire power adjustment device 140 reduces the fire power of the cooker according to the fire power reduction signal. The heating power adjustment signal may be a PWM signal, and the heating power increase signal may be a PWM signal corresponding to a larger duty ratio, and the heating power decrease signal may be a PWM signal corresponding to a smaller duty ratio. The fire power adjusting device 140 can be used to control the fire power of the cooking stove, for example, the fire power adjusting device 140 can adjust the gas valve to be larger or smaller according to the fire power adjusting signal, so as to adjust the fire power.

Specifically, the temperature control module, the mobile terminal 120, and the control device 130 are respectively connected through the control device 130; the user can control the mobile terminal 120, and preset parameters such as the weight and the type of the cooking menu to be input into the mobile terminal 120, namely, the mobile terminal 120 obtains the preset menu parameters; the mobile terminal 120 generates corresponding cooking curve data according to preset recipe parameters, and transmits the cooking curve data to the control device 130; the temperature detection module 110 may detect the temperature of the cooker in real time, so as to obtain the current temperature of the cooker, and transmit the obtained current temperature of the cooker to the control device 130; the control device 130 may receive the current cooker temperature and cooking curve data, and transmit a fire adjustment signal to the fire adjustment device 140 according to the current cooker temperature and cooking curve data, so that the fire adjustment device 140 configures to control the cooker fire according to the fire adjustment signal, thereby implementing intelligent cooking of a recipe.

In the above embodiment, the recipe can be intelligentized, the time and the firepower required by the step of inputting the dishes in advance, the seasonings to be added and the like are input, the user only needs to put the corresponding dishes and the seasonings according to the prompt of the mobile terminal 120, the firepower does not need to be manually adjusted, the dishes can be cooked, and the intelligentization of the recipe is greatly enhanced.

In one embodiment, the mobile terminal 120 is further configured to obtain a recipe cooking video corresponding to the preset recipe parameter, and play the recipe cooking video.

Wherein, the mobile terminal 120 may further obtain the recipe cooking video through the networked cloud server. The mobile terminal 120 may also automatically generate a recipe cooking video according to the budget recipe parameters. The recipe cooking video can be used to demonstrate the cooking process of the dishes. For example, the user can know the cooking steps of the recipe by watching the recipe cooking video, and then the user can put in corresponding food materials and seasonings according to the prompt of the mobile terminal 120.

Specifically, after the user operates the mobile terminal 120 to set the preset recipe parameters, the mobile terminal 120 may generate a recipe cooking video according to the preset recipe parameters, and then after the user clicks the mobile terminal 120 to start cooking, the mobile terminal 120 may play the recipe cooking video.

Further, after the control device 130 controls the cooker to complete cooking, the control device 130 may feed cooking completion information back to the mobile terminal 120, and the mobile terminal 120 may perform voice prompt for cooking reception according to the received cooking completion information. In addition, the mobile terminal 120 may also display cooking completion information to remind the user of completing cooking.

In one embodiment, as shown in fig. 2, the control device 130 includes a controller 132 and a wireless communication module 134 connected to the controller 132; the controller 132 is respectively connected with the temperature detection module 110 and the fire power adjusting device 140; the wireless communication module 134 is communicatively coupled to the mobile terminal 120.

The processing chip included in the controller 132 may be, but is not limited to, a single chip or a DSP. The wireless communication module 134 may be used to establish a communication connection with the mobile terminal 120. In one example, the wireless communication module 134 is a bluetooth communication module.

Specifically, the temperature detection module 110 and the fire power adjustment device 140 are connected to the controller 132, respectively; the wireless communication module 134 is in communication connection with the mobile terminal 120, and a user can operate the mobile terminal 120, and preset parameters such as the weight and the type of the cooking recipe to be input into the mobile terminal 120, that is, the mobile terminal 120 obtains preset recipe parameters; the mobile terminal 120 generates corresponding cooking curve data according to preset recipe parameters, and transmits the cooking curve data to the controller 132 through the wireless communication module 134; the temperature detection module 110 may detect the temperature of the cooker in real time, so as to obtain the current temperature of the cooker, and transmit the obtained current temperature of the cooker to the controller 132; the controller 132 may receive the current cooker temperature and cooking curve data, and transmit a fire adjustment signal to the fire adjustment device 140 according to the current cooker temperature and cooking curve data, so that the fire adjustment device 140 configures to control the cooker fire according to the fire adjustment signal, thereby implementing intelligent cooking of a recipe.

In the above embodiment, the wireless communication module 134 is connected to the mobile terminal 120 in a wireless communication manner, so that the mobile terminal 120 can transmit cooking curve data to the controller 132 through the wireless communication module 134, the controller 132 can compare the current cooking temperature transmitted by the temperature detection module 110 with the cooking curve data, and transmit a fire power adjusting signal to the fire power adjusting device 140 according to the comparison result, so that the fire power adjusting device 140 can adjust the fire power of the cooking range, thereby implementing automatic cooking based on the recipe parameters; the menu can be intelligentized, corresponding dishes and seasonings are put in according to the prompt of the mobile terminal 120 by inputting the time and the firepower required by the steps of the dishes in advance and the seasonings needing to be added, the firepower does not need to be manually adjusted by a user, the dishes can be cooked, and the intelligentization of the menu is greatly enhanced.

In one embodiment, as shown in fig. 3, the intelligent cooker control system further comprises a flame out protection device 150 configured to control a valve of the cooker to close when detecting that a flame of the cooker is extinguished.

Wherein, the valve refers to a gas valve. The flame-out protection device 150 can be used for detecting whether the flame of the cooker is extinguished, and cutting off the gas channel of the valve of the cooker after the flame of the cooker is extinguished, so that the gas valve can be closed in time to avoid gas leakage, and a safety protection effect is achieved. In one example, the flame out protection device 150 may be a thermocouple flame out protection device 150 or an ion sensitive needle flame out protection device 150.

Specifically, based on setting flame-out protection device 150 on the kitchen range, and then when the kitchen range suddenly flame out (such as blowing out by strong wind), the flame-out state of the kitchen range can be detected in time through flame-out protection device 150, and the valve of the kitchen range is controlled to be closed in time, so that gas leakage is avoided, and a safety protection effect is achieved.

Further, the flameout protection device 150 is a thermocouple flameout protection device 150, and the thermocouple flameout protection device 150 includes a thermocouple assembly and a solenoid valve. One end of the thermocouple assembly is close to the flame end of the stove, and the other end of the thermocouple assembly is connected with the electromagnetic valve. When the cooker works normally, the electric potential generated by the thermocouple assembly is connected into a coil of the electromagnetic valve to generate a magnetic field to enable the electromagnetic valve to act, a gas valve of the cooker is opened, gas in the main gas passage is conducted, and the normal combustion of the combustor is maintained. When the flame of the cooker is extinguished, the potential at the leading-out wire end of the thermocouple assembly is quickly reduced to zero, the magnetic control valve coil loses power, the magnetic control valve coil is quickly reset under the action of the spring, the valve pad seals the gas source channel, namely the valve is closed, and the gas channel is cut off.

In one example, as shown in FIG. 4, a schematic circuit diagram of a thermocouple flameout protection device is shown. The thermocouple flameout protection device may include: the first input end of the operational amplification circuit (comprising an operational amplifier LM358) is connected with the output end (L _ RDO) of the thermocouple assembly, and the second input end of the operational amplification circuit is grounded; the output end of the operational amplification circuit is connected with the electromagnetic valve, and then when the flame of the cooker is extinguished, the potential at the output end of the thermocouple assembly is reduced to zero, so that the output of the operational amplifier is zero, and further the magnetic control valve coil is powered off, so that the valve is closed, and the gas channel is cut off.

In one example, as shown in FIG. 5, a schematic circuit diagram of a temperature sensing module is shown. The temperature detection module comprises a temperature probe connecting seat, a resistor R5, a resistor R107 and a capacitor C106. Wherein the temperature probe connecting seat is connected with the temperature probe. The resistor R5 is a pull-up resistor, one end of the resistor R5 is connected with a power supply (+5V), and the other end of the resistor R5 is connected with a first pin of the temperature probe connecting seat. The resistor R107 is a follow current resistor, one end of the resistor R107 is connected with the first pin of the temperature probe connecting seat, and the other end of the resistor R107 is connected with the control device. The first terminal of the capacitor C106 is connected to the control device, and the second terminal is grounded. The second pin of the temperature probe connecting seat is grounded.

In one embodiment, the fire adjustment device includes a proportional valve coupled to the controller.

Wherein, the main effect of proportional valve is in controlling firepower size. The electromagnetic force generated by the proportional valve is in direct proportion to the magnitude of the current, and then the proportional valve can control the size of the valve opening according to the magnitude of the current.

Specifically, as shown in fig. 6, which is a control circuit schematic diagram of a proportional valve, the control circuit of the proportional valve may include a comparison circuit, a current feedback circuit, and a drive circuit. The output end of the driving circuit provides current for the proportional valve to control the opening degree of the valve of the proportional valve, the current feedback circuit collects the current of the proportional valve and feeds the current back to the first input end of the comparison circuit, the second input end of the comparison circuit is connected with the PWM signal, and after comparison processing, the driving circuit outputs a driving signal.

In one embodiment, the cooking profile data includes temperature profile data; the control equipment is also used for comparing the current cooker temperature with the temperature curve data, generating a firepower adjusting signal according to the processing result, and transmitting the firepower adjusting signal to the firepower adjusting equipment so that the firepower adjusting equipment can adjust the firepower of the cooker.

The temperature curve data can be embodied by establishing a two-dimensional coordinate system, wherein the abscissa is a cooking time point, and the ordinate is the temperature of the cooker. The total cooking time of the recipe can be divided into a plurality of time periods, for example, the total cooking time of the recipe can be divided into a preheating time period, a food material putting time period, a formal cooking time period, a heat preservation time period and the like. The temperature of the kitchen range corresponding to each time period is different, and the specific temperature value can be determined according to historical cooking experience and the type of a menu.

Specifically, the control device may acquire the current cooker temperature based on a budget period, compare the acquired current cooker temperature with temperature curve data, and generate a fire power adjustment signal according to a processing result. For example, the control device may generate a fire power increase signal when the current cooker temperature is less than the temperature at the corresponding time point in the temperature curve data during the formal cooking period according to the result of the processing, and transmit the fire power increase signal to the fire power adjustment device, so that the fire power adjustment device increases the fire power of the cooker according to the fire power increase signal. If the cooking is finished, the control device can generate a firepower reducing signal and transmit the firepower reducing signal to the firepower adjusting device when the temperature of the current cooker is higher than the temperature of the corresponding time point in the cooking curve data in the formal cooking time period according to the processing result, so that the firepower adjusting device can reduce the firepower of the cooker according to the firepower reducing signal to realize the intelligent cooking of the menu, and a user only needs to put corresponding dishes and seasonings according to the prompt of the mobile terminal and does not need to manually adjust the firepower, so that the cooking of the dishes can be realized, and the intellectualization of the menu is greatly enhanced.

In one embodiment, as shown in fig. 7, a method for controlling an intelligent cooker is provided, which is described by taking the method as an example of being applied to the mobile terminal in fig. 1, and includes the following steps:

and step 100, receiving cooking curve data transmitted by the temperature detection module and the current stove temperature and firepower adjusting equipment.

200, transmitting a fire adjusting signal to fire adjusting equipment according to the current stove temperature and cooking curve data; the firepower adjusting signal is used for indicating firepower adjusting equipment to control firepower of the cooker.

Specifically, a user can control the mobile terminal, and parameters such as the weight and the type of a cooking menu are input into the mobile terminal in a preset mode, namely the mobile terminal obtains preset menu parameters; the mobile terminal generates corresponding cooking curve data according to preset recipe parameters and transmits the cooking curve data to the control equipment; the temperature detection module can detect the temperature of the cooker in real time so as to obtain the current temperature of the cooker and transmit the obtained current temperature of the cooker to the control equipment; the control device can receive the current cooker temperature and cooking curve data and transmit a firepower adjusting signal to the firepower adjusting device according to the current cooker temperature and cooking curve data, so that the firepower adjusting device is configured to control the firepower of the cooker according to the firepower adjusting signal, and intelligent cooking of a menu is realized. This application can be intelligent with the menu, through typing in the required time of dish step and firepower size and the condiment that needs added in advance etc. the user puts into corresponding dish and condiment according to mobile terminal's suggestion, need not oneself manual regulation firepower, can realize the culinary art to the dish, has greatly strengthened the intellectuality of menu.

In a particular embodiment, the cooking profile data includes temperature profile data; the step of transmitting a fire adjustment signal to the fire adjustment device according to the current cooker temperature and cooking curve data comprises:

comparing the current stove temperature with temperature curve data;

and generating a firepower adjusting signal according to the processing result, and transmitting the firepower adjusting signal to firepower adjusting equipment so that the firepower adjusting equipment adjusts the firepower of the stove.

The temperature curve data can be reflected by establishing a two-dimensional coordinate system, the abscissa is a cooking time point, and the ordinate is the temperature of the stove. The total cooking time of the recipe can be divided into a plurality of time periods, for example, the total cooking time of the recipe can be divided into a preheating time period, a food material putting time period, a formal cooking time period, a heat preservation time period and the like. The temperature of the kitchen range corresponding to each time period is different, and the specific temperature value can be determined according to historical cooking experience and the type of a menu.

Specifically, the control device may acquire the current cooker temperature based on a budget period, compare the acquired current cooker temperature with temperature curve data, and generate a fire power adjustment signal according to a processing result. For example, the control device may generate a fire power increase signal when the current cooker temperature is less than the temperature at the corresponding time point in the temperature curve data during the formal cooking period according to the result of the processing, and transmit the fire power increase signal to the fire power adjustment device, so that the fire power adjustment device increases the fire power of the cooker according to the fire power increase signal. If the cooking is finished, the control device can generate a firepower reducing signal and transmit the firepower reducing signal to the firepower adjusting device when the temperature of the current cooker is higher than the temperature of the corresponding time point in the cooking curve data in the formal cooking time period according to the processing result, so that the firepower adjusting device can reduce the firepower of the cooker according to the firepower reducing signal to realize the intelligent cooking of the menu, and a user only needs to put corresponding dishes and seasonings according to the prompt of the mobile terminal and does not need to manually adjust the firepower, so that the cooking of the dishes can be realized, and the intellectualization of the menu is greatly enhanced.

In one example, when the user uses the cooking stove, the user prepares corresponding food materials and seasonings in advance and puts a pot on a hearth rack; and controlling the mobile terminal, and inputting the weight of the food materials, the seasonings and each step of cooking in the menu in advance, wherein the cooking time point of each step is set. A mobile terminal (such as a mobile phone or a tablet) is connected with a Bluetooth module on the control equipment, a menu to be made is selected, and the menu is clicked to start. And then mobile terminal transmits culinary art curve data for the controller through the bluetooth, and then controller control cooking utensils ignition to detect cooking utensils temperature in real time through temperature detection module. The mobile terminal plays each step of cooking according to the menu input in advance, a user only needs to put corresponding food materials and seasonings into the pot according to the prompt of the mobile terminal, the controller controls the cooker to automatically close the gas valve to extinguish after cooking is finished, and the cooking is finished and is displayed to finish the cooking through the voice prompt of the mobile terminal.

Further, the cooking modes may include a manual cooking and an intelligent cooking mode. The method comprises the following steps that a user can select a corresponding cooking mode on a mobile terminal, if the user selects an intelligent cooking mode, the user further selects cooked dishes and clicks to start, the mobile terminal sends cooking curve data to a controller through a Bluetooth module, the controller controls a cooker to be ignited and started, and the temperature of the cooker is detected in real time through a temperature detection module; the distinguishable culinary art curve data of controller to compare current cooking utensils temperature and culinary art curve data and handle, and according to comparing the result of handling, control firepower adjusting device, so that firepower adjusting device adjusts cooking utensils firepower size, realize adjusting the firepower according to different dishes temperature demands, and then let the kitchen menu more intelligent, effectively guide the user that can not do the dish, make intelligent kitchen culinary art more intelligent.

It should be understood that, although the steps in the flowchart of fig. 7 are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least a portion of the steps in fig. 7 may include multiple sub-steps or multiple stages that are not necessarily performed at the same time, but may be performed at different times, and the order of performance of the sub-steps or stages is not necessarily sequential, but may be performed in turn or alternately with other steps or at least a portion of the sub-steps or stages of other steps.

In one embodiment, there is provided an intelligent cooker control apparatus including: data receiving module and firepower adjusting module, wherein:

and the data receiving module is used for receiving the cooking curve data transmitted by the current cooker temperature and the firepower adjusting equipment transmitted by the temperature detection module.

The fire power adjusting module is used for transmitting a fire power adjusting signal to fire power adjusting equipment according to the current stove temperature and cooking curve data; the firepower adjusting signal is used for indicating firepower adjusting equipment to control firepower of the cooker.

For specific limitations of the intelligent cooker control device, reference may be made to the above limitations of the intelligent cooker control method, which are not described herein again. Each module in the above-mentioned intelligent cooker control device may be wholly or partially implemented by software, hardware, and a combination thereof. The modules can be embedded in a hardware form or independent of a processor in the mobile terminal, and can also be stored in a memory in the mobile terminal in a software form, so that the processor can call and execute operations corresponding to the modules.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware instructions of a computer program, which can be stored in a non-volatile computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in the embodiments provided herein may include non-volatile and/or volatile memory, among others. Non-volatile memory can include read-only memory (ROM), Programmable ROM (PROM), Electrically Programmable ROM (EPROM), Electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), Dynamic RAM (DRAM), Synchronous DRAM (SDRAM), Double Data Rate SDRAM (DDRSDRAM), Enhanced SDRAM (ESDRAM), Synchronous Link DRAM (SLDRAM), Rambus Direct RAM (RDRAM), direct bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM).

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the claims. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. The utility model provides an intelligence kitchen control system which characterized in that includes:

the temperature detection module is configured to detect the temperature of the cooker to obtain the current temperature of the cooker;

the mobile terminal is configured to generate cooking curve data according to preset recipe parameters;

the control equipment is respectively connected with the temperature control module and the mobile terminal, is configured to receive the current cooker temperature and the cooking curve data, and transmits a firepower adjusting signal to the firepower adjusting equipment according to the current cooker temperature and the cooking curve data;

the firepower adjusting equipment is connected with the control equipment, is configured to receive the firepower adjusting signal and controls the firepower of the cooker according to the firepower adjusting signal.

2. The intelligent cooker control system according to claim 1, wherein the mobile terminal is further configured to obtain a recipe cooking video corresponding to preset recipe parameters, and play the recipe cooking video.

3. The intelligent cooker control system according to claim 1, wherein the control device comprises a controller and a wireless communication module connected to the controller; the controller is respectively connected with the temperature detection module and the fire power adjusting equipment; the wireless communication module is in communication connection with the mobile terminal.

4. The intelligent cooker control system according to claim 3, wherein the wireless communication module is a Bluetooth communication module.

5. The intelligent cooker control system of claim 1, further comprising a flame out protection device configured to control a valve of the cooker to close when detecting that a flame of the cooker is extinguished.

6. The intelligent cooker control system according to claim 5, wherein the flame-out protection device is a thermocouple flame-out protection device or an ion-sensitive needle flame-out protection device.

7. The intelligent cooker control system according to claim 1, wherein the fire adjustment device comprises a proportional valve connected to the controller.

8. The intelligent cooker control system according to any one of claims 1 to 7, wherein the cooking profile data includes temperature profile data;

the control equipment is also used for comparing the current stove temperature with the temperature curve data, generating the firepower adjusting signal according to a processing result, and transmitting the firepower adjusting signal to the firepower adjusting equipment so that the firepower adjusting equipment can adjust the firepower of the stove.

9. A control method of an intelligent stove is characterized by comprising the following steps:

receiving cooking curve data transmitted by the temperature detection module and the current stove temperature and firepower adjusting equipment;

transmitting a fire adjusting signal to the fire adjusting equipment according to the current stove temperature and the cooking curve data; the firepower adjusting signal is used for indicating the firepower adjusting equipment to control the firepower of the cooker.

10. The intelligent cooker control method according to claim 9, wherein the cooking curve data includes temperature curve data; the step of transmitting a fire adjustment signal to the fire adjustment device according to the current cooker temperature and the cooking curve data comprises:

comparing the current stove temperature with the temperature curve data;

and generating the fire adjusting signal according to the processing result, and transmitting the fire adjusting signal to the fire adjusting equipment so that the fire adjusting equipment adjusts the fire of the stove.

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