CN214964675U - Cooking utensil - Google Patents

Abstract

An embodiment of the utility model provides a cooking utensil, include: a heating platform; any one of the appliances is detachably arranged on the heating platform, and when the appliances are arranged on the heating platform, the appliances can be in communication connection with the heating platform; and the controller is arranged on each appliance and can control the corresponding appliance to work. Through setting up the controller on every utensil, the controller is used for controlling the utensil work that corresponds, that is to say, sets up the controller that can control the utensil work that corresponds alone on every utensil to when heating platform heated the utensil, every utensil can also realize the self-control that corresponds according to its kind, had richened cooking utensil's service function, improved user's use and experienced.

Description

Cooking utensil

Technical Field

The embodiment of the utility model relates to a cooking equipment technical field particularly, relates to a cooking utensil.

Background

At present, a multifunctional cooking appliance in the related art has the functions of an induction cooker, a rice cooker, a pressure cooker and the like, the bottom of the multifunctional cooking appliance shares the induction cooker, and different pots and pot covers can be replaced on the upper part of the induction cooker, so that the multifunctional cooking appliance is multifunctional. For example, the inner pot of the rice cooker is replaced to realize the cooking function; the function of the pressure cooker is realized by replacing the pressure inner cooker; the air-frying cover is replaced to realize the air-frying function and the like.

When different inner pots or covers are replaced, corresponding loads or control circuits are replaced synchronously, for example, a stirring motor needs to be controlled on the stirring cover, a heating wire and a fan need to be controlled on the air fryer, the pressure cooker has pressure and the cover buckling condition is detected, and the like. However, it is difficult to be compatible with such many different control circuits on the circuit board of the electromagnetic oven, and the currently unplanned product cannot continue to realize function expansion on the current platform.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model aims at solving one of the technical problem that exists among the prior art at least.

To this end, a first aspect of embodiments of the present invention provides a cooking appliance.

In view of this, according to a first aspect of embodiments of the present invention, there is provided a cooking appliance, including: a heating platform; any one of the appliances is detachably arranged on the heating platform, and when the appliances are arranged on the heating platform, the appliances can be in communication connection with the heating platform; and the controller is arranged on each appliance and can control the corresponding appliance to work.

The embodiment of the utility model provides a cooking utensil includes heating platform, a plurality of utensil and controller, particularly speaking, any one utensil detachable setting is on heating platform in a plurality of utensils, can understand, when placing the utensil on heating platform, heating platform can heat the utensil, can make heating platform can match multiple utensil to when placing the utensil of different grade type on heating platform, heating platform can realize heating the utensil of corresponding type. For example, the heating platform is an electromagnetic oven, the appliances include but are not limited to an electric cooker, a pressure cooker, a stirring device, a wall breaking machine and the like, when the electric cooker is placed on the electromagnetic oven, the electromagnetic oven can realize the cooking function by heating the electric cooker, so that the heating platform shared by one user can meet the heating function of various appliances, a heating device is not required to be arranged in the appliances such as the electric cooker, the occupied space of the appliances in a kitchen is greatly reduced, and the use experience of the user is improved.

When an appliance is placed on the heating platform, the appliance and the heating platform can be in communication connection, so that data transmission between the appliance and the heating platform can be realized. For example, the appliance may receive a control command of the heating platform, and the heating platform may also receive temperature data of the heating platform, so that the heating platform controls the appliance to be heated according to the received temperature data. The appliance and the heating platform may be communicatively connected by Uart (Universal Asynchronous Receiver transmitter). Of course, the appliance and the heating platform may also be in communication connection in a wireless communication manner, and may be specifically set according to actual needs.

The cooking function that the utensil is different, it realizes is also diversified, for example, the pressure detection function of pressure cooker, agitating unit's stirring function, air current circulation function etc. in the air fryer, that is to say, different kinds of utensils need still realize corresponding self-control when needs are heated to richen user's user demand. When changing different utensils on heating platform, also changed corresponding load or control circuit in step, however, if the different control circuit with different types of utensil all integrates on heating platform, then must cause heating platform's structure more complicated, and if new product appears, then can't carry out the adaptation with heating platform.

Through setting up the controller on every utensil, the controller is used for controlling the utensil work that corresponds, that is to say, sets up the controller that can control the utensil work that corresponds alone on every utensil to when heating platform heated the utensil, every utensil can also realize the self-control that corresponds according to its kind, had richened cooking utensil's service function, improved user's use and experienced. In addition, various different control circuits are not required to be integrated on the heating platform, the structure of the heating platform is simplified, and the production cost of the heating platform is further reduced. In addition, each appliance is provided with an independent controller, so that the appliance can be matched with the heating platform even if new products appear subsequently, and the application range and the applicability of the heating platform are improved.

For example, the appliance is an air fryer, the heating platform is an induction cooker, when the air fryer is placed on the induction cooker, the air fryer can be in communication connection with the induction cooker, the induction cooker can transmit control commands to the air fryer, and the air fryer can transmit data such as heating temperature to the induction cooker, so that the heating function of the induction cooker on the air fryer is achieved. The air is fried the pot and is still included the heater, fan and controller, the controller is used for controlling the heater and generate heat and the fan operation, thereby when the electromagnetism stove is fried the pot to the air, the pot self can also be realized heating and the function that inside air current flows is fried to the air, the multiple culinary art function of cooking utensil has been richened, and then improve user's use and experience, and set up on the utensil that corresponds through the controller that will be used for controlling utensil self control, and not set up on heating platform, heating platform's structure can be simplified, heating platform's suitability and application range are improved, make the product that has not planned at present can realize the function expansion on heating platform.

In addition, according to the utility model discloses above-mentioned technical scheme provides cooking utensil still has following additional technical characterstic:

in a possible design, the cooking appliance further includes a first communication device and a second communication device, wherein the first communication device is disposed on the appliance, the second communication device is disposed on the heating platform, the appliance and the heating platform are in communication connection through the first communication device and the second communication device, and the controller is connected to the first communication device.

In this design, it is defined that the cooking appliance further comprises a first communication device and a second communication device, specifically, the first communication device is arranged on the appliance, the second communication device is arranged on the heating platform, and when the appliance is arranged on the heating platform, the appliance and the heating platform can be connected in communication through the first communication device and the second communication device. It can be appreciated that when the appliance is disposed on the heating platform, the first communication device can be communicatively coupled to the second communication device, thereby communicatively coupling the appliance to the heating platform. Specifically, the appliance may receive a control command of the heating platform, and the heating platform may also receive temperature data of the heating platform, so that the heating platform controls the appliance to be heated according to the received temperature data. Wherein, utensil and heating platform can adopt Uart communication mode to carry out communication connection. Of course, the appliance and the heating platform may also be in communication connection in a wireless communication manner, and may be specifically set according to actual needs.

In addition, the controller is connected with the first communication device, that is to say, when the appliance is arranged on the heating platform, the first communication device is in communication connection with the second communication device, and the first communication device can transmit the received control command or signal to the controller, so that the controller can perform self-control on the appliance according to the control command or signal transmitted by the heating platform, and the operation experience of a user is improved. For example, a user inputs a temperature which the heating platform desires to heat on the appliance, the temperature is sent to the first communication device through the controller, the first communication device sends data information to the main control board of the heating platform, so that the main control board controls the heating platform to heat the appliance according to the corresponding temperature, meanwhile, the heating platform sends a command for starting to work to the controller through the second communication device and the first communication device, and the controller receives the command and then controls the appliance to work, for example, a fan of the air fryer to start to operate.

In one possible design, the cooking appliance further comprises connectors, which connect the first communication device and the second communication device, respectively.

In this design, it is defined that the cooking appliance further includes a connector, specifically, the connector connects the first communication device and the second communication device, respectively, that is, when the appliance is disposed on the heating platform, the first communication device and the second communication device are in communication connection established through the connector, so that the appliance and the heating platform can be in communication connection, and data transmission between the appliance and the heating platform is realized.

It should be noted that the connector includes, but is not limited to, a coupler, and may be specifically configured according to actual needs. It is understood that connectors that enable the first communication device to establish a communication connection with the second communication device when the appliance is placed on the heating platform are within the scope of the present application.

In one possible design, the connector is connected to an ac power source.

In this design, the connector is connected to an ac power source, that is, an interface connected to the ac power source is provided on the connector. It can be understood that different kinds of appliances such as an electric cooker and an air fryer are supplied with alternating current, and the connector can be adapted to different appliance products by connecting the connector with an alternating current power supply, so that the applicability and the use range of the cooking appliance are improved.

In a possible embodiment, the connector is a coupler, and the second communication device is coupled to the first communication device via the coupler when the appliance is disposed on the heating platform.

In this design, the connector is defined as a coupler, and specifically, when the appliance is disposed on the heating platform, the second communication device is connected with the first communication device through the coupler, so that the communication connection between the second communication device and the first communication device is realized when the appliance is disposed on the heating platform, and further, the communication connection between the appliance and the heating platform is realized. After the appliance is in communication connection with the heating platform, the appliance can receive a control command of the heating platform, and the heating platform can also receive temperature data of the heating platform, so that the heating platform controls the appliance to be heated according to the received temperature data.

In a possible design, the first communication device includes a first receiving module, a first optical coupler and a first resistor, wherein two ends of the first optical coupler are respectively connected with the first receiving module and the coupler, one end of the first resistor is respectively connected with the first receiving module and the first optical coupler, the other end of the first resistor is connected with a reference potential, the second communication device includes a first sending module, the first sending module is connected with the coupler, and when the apparatus is arranged on the heating platform, the first sending module and the first optical coupler form a first loop.

In this design, a first communication device is defined that includes a first receiving module, a first optocoupler, and a first resistor. The second communication device includes a first sending module. Specifically, one end of the first optical coupler is connected with the first receiving module, the other end of the first optical coupler is connected with the coupler, one end of the first resistor is respectively connected with the first receiving module and the first optical coupler, the other end of the first resistor is connected with the reference potential, namely, the first resistor is a pull-up resistor, and by arranging the first resistor, the first receiving module can output high level under the condition that the first optical coupler is closed, so that the communication from the heating platform to the appliance is realized. The first sending module is connected to the coupler such that the first sending module and the first optical coupler form a first loop when the appliance is positioned on the heating platform. Specifically, when the first transmitting module inputs a low level, the first loop is conducted, and when the first transmitting module inputs a high level, the first loop is not conducted. Communication of the heating platform to the appliance is achieved.

The optical coupler is used for realizing communication between the appliance and the heating platform, a communication circuit between the appliance and the heating platform can be isolated, the appliance and the heating platform are prevented from causing a fryer due to non-equipotential, and the use safety of the cooking appliance is improved.

In a possible design, the first communication device further comprises a second sending module and a second optical coupler, wherein two ends of the second optical coupler are respectively connected with the second sending module and the coupler, the second communication device further comprises a second receiving module and a second resistor, the second receiving module is connected with the coupler, when the appliance is arranged on the heating platform, the second sending module and the second optical coupler form a second loop, one end of the second resistor is connected with the second receiving module, and the other end of the second resistor is grounded.

In this design, the first communication device further includes a second transmitting module and a second optical coupler. The second communication device further comprises a second receiving module and a second resistor. Specifically, one end of the second optical coupler is connected to the second transmitting module, and the other end of the second optical coupler is connected to the coupler, so that when the appliance is placed on the heating platform, the second transmitting module and the second optical coupler form a second loop, and when the second transmitting module inputs a high level, the second loop is turned on, and when the second transmitting module inputs a low level, the second loop is turned off. The second receiving module is connected with the coupler, one end of the second resistor is connected with the second receiving module, the other end of the second resistor is grounded, namely the second resistor is a pull-down resistor, and when the second loop is not conducted, namely the second optical coupler is closed, the second resistor can enable the second receiving module to output a low level. Thereby enabling communication from the appliance to the heating platform.

In one possible design, the first communication device further includes a third resistor, and the third resistor is connected to the second transmitting module and the second optical coupler, respectively.

In this design, it is defined that the first communication device further includes a third resistor, and specifically, the third resistor is disposed between the second sending module and the second optical coupler, that is, the third resistor is formed on the second loop, and the conduction of the first loop can be achieved after voltage division by the third resistor.

In one possible design, the second communication device further includes a fourth resistor, and the fourth resistor is connected to the first sending module and the coupler, respectively.

In this design, it is defined that the second communication device further includes a fourth resistor, specifically, one end of the fourth resistor is connected to the coupler, and the other end of the fourth resistor is connected to the first sending module, that is, the fourth resistor is formed on the second loop, and the second loop can be turned on after voltage division is performed by the fourth resistor.

In a possible design, the connector includes at least six interfaces, three interfaces of the at least six interfaces are used for connecting an alternating current power supply, the at least six interfaces further include a first interface, a second interface and a third interface, wherein the first sending module and the first optical coupler form a first loop through the first interface, the second receiving module and the second optical coupler form a second loop through the second interface, and the third interface is connected to a reference potential.

In this design, it includes six at least interfaces to have limited the connector, and wherein, has three interface to be used for connecing alternating current power supply, can understand that three interface connects N zero line, L live wire, GND ground wire respectively, through connecting alternating current power supply with the connector, can make the connector can adapt multiple different utensil products, and then improves cooking utensil's suitability and application range. Further, the at least six interfaces further include a first interface, a second interface, and a third interface, and specifically, the first transmitting module and the first optical coupler form a first loop through the first interface, the second receiving module and the second optical coupler form a second loop through the second interface, and the third interface is connected to the reference potential.

In one possible design, the heating platform includes a main control board connected to the second communication device, and the coupler includes a lower coupler and an upper coupler, wherein the lower coupler is disposed on the heating platform and connected to the main control board, and the upper coupler is disposed on the appliance and connected to the controller.

In this design, the heating platform includes a main control board, and it is defined that the coupler includes a lower coupler and an upper coupler, and specifically, the lower coupler is disposed on the heating platform and connected to the main control board, the upper coupler is disposed on the appliance and connected to the controller, so that the appliance is coupled to the heating platform when the appliance is disposed on the heating platform. In addition, the first communication device is connected with the upper coupler, the second communication device is connected with the lower coupler, and when the appliance is arranged on the heating platform, the first communication device and the second communication device are in communication connection through the upper coupler and the lower coupler, so that the appliance is in communication connection with the heating platform.

In addition, the heating platform comprises a main control board, and the second communication device is connected with the main control board, so that the second communication device can send the temperature data received by the first communication device on the appliance to the main control board, and the main control board can control the heating platform to work according to the temperature data.

In one possible design, the first communication device includes a first wireless communication module and the second communication device includes a second wireless communication module.

In this design, it is defined that the first communication device includes a first wireless communication module, and the second communication device includes a second wireless communication module, that is, when the appliance is disposed on the heating platform, the appliance and the heating platform are in communication connection through the first wireless communication module and the second wireless communication module, that is, the appliance and the heating platform perform wireless communication, and data communication between the appliance and the heating platform is realized. For example, the appliance and the heating platform are connected through Bluetooth communication in a wireless communication mode.

In one possible design, the controller includes a single chip microcomputer and a power supply part, wherein the power supply part is electrically connected with the single chip microcomputer.

In this design, it includes singlechip and power spare to have injectd the controller to when heating platform heats the utensil, the utensil can also realize self-control through the singlechip etc. of controller, thereby has further richened the culinary art function of utensil, promotes user's use and experiences.

For example, heating platform is the electromagnetism stove, the utensil is the air and explodes the pot, when frying the pot with the air and placing on the electromagnetism stove, the electromagnetism stove can heat the air and explode the pot, and the air is fried pot self and can be included the fan, when the work of the air is fried pot, the fan operation can promote the inside air current circulation of the air fried pot, be convenient for realize eating the even heating of material, through set up the controller on utensil (air is fried pot), the controller includes the singlechip and for the power spare of singlechip power supply, can realize the control to the fan, and then richened cooking utensil's multiple culinary art function. And, because the kind of utensil is different, therefore, the control circuit of control utensil is also different, if integrated on heating platform with the control circuit of multiple difference, then can lead to the heating platform structure complicated, and if new kind of utensil appears, this heating platform of unable adaptation then, through set up the controller that is used for self-control on every utensil, and the controller includes the singlechip and for the power supply spare of singlechip power supply, can be on the basis of abundant cooking utensil service function, make heating platform have the expansibility, improve heating platform's suitability.

In addition, the power supply part is electrically connected with the single chip microcomputer, namely the self-control of the cooking utensil is realized by the independent power supply of the power supply part, and the convenience of the cooking utensil is improved.

In one possible design, the heating platform is an induction cooker.

In this design, it is the electromagnetism stove to have injectd heating platform, and when placing the utensil of different grade type on the electromagnetism stove, the electromagnetism stove can be through heating in order to realize different functions to can use the heating function that a shared electromagnetism stove satisfies multiple type utensil, therefore need not to set up heating device in utensil such as electricity rice cooker, greatly reduces the occupation space of utensil in the kitchen, improves user's use and experiences.

In addition, the electromagnetic oven utilizes the coil panel to generate an alternating magnetic field under the action of the control circuit, eddy current can appear in a conductor (cooker) in the alternating magnetic field, and the joule heat effect of the eddy current enables the conductor to be heated, so that heating is realized. The electromagnetic oven has the advantages of high heating speed, energy conservation, environmental protection, multiple functions, high safety, convenient use, economy, practicability and the like, is easy to clean, and can reduce the production cost of cooking appliances on the basis of heating different types of appliances by setting the heating platform into the electromagnetic oven.

In one possible design, the appliance includes a rice cooker, a pressure cooker, an air fryer.

In this design, the appliances are limited to electric cookers, pressure cookers, and air fryers, but the appliances defined in the present application are not limited to the above-described types of appliances, and may include appliances requiring a heating function, such as a wall breaking machine. Thus, different functions can be realized when different types of appliances are replaced on the heating platform.

For example, when the inner pot of the electric cooker is placed on the heating platform, the cooking function can be realized; when the pressure inner pot is placed on the heating platform, the function of the pressure pot can be realized; when the stirring container and the stirring cover are placed on the heating platform, stirring and heating functions and the like can be realized; when the air fryer is placed on the heating platform, the air-frying function and the like can be realized.

Additional aspects and advantages in accordance with 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 connection diagram of a heating platform and an appliance in a cooking appliance according to an embodiment of the present invention;

fig. 2 shows a schematic structural view of a connector according to an embodiment of the present invention;

fig. 3 shows a schematic circuit diagram of a first communication device and a second communication device according to an embodiment of the present invention.

Wherein, the correspondence between the reference numbers and the component names in fig. 1 to 3 is:

110 heating platform, 120 appliance, 130 first communication device, 131 first receiving module, 132 first optical coupler, 133 first resistor, 134 second transmitting module, 135 second optical coupler, 136 third resistor, 140 second communication device, 141 first transmitting module, 142 second receiving module, 143 second resistor, 144 fourth resistor, 150 connector.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more clearly understood, the present invention will be described in further detail with reference to the accompanying drawings and detailed description. 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 cooking appliance provided according to some embodiments of the present invention is described below with reference to fig. 1 to 3.

The first embodiment is as follows:

as shown in fig. 1, an embodiment of the first aspect of the present invention provides a cooking appliance, in view of this, according to a first aspect of the embodiments of the present invention, there is provided a cooking appliance, including: a heated platen 110; a plurality of appliances 120, wherein any one of the appliances 120 of the plurality of appliances 120 is detachably disposed on the heating platform 110, and when the appliance 120 is disposed on the heating platform 110, the appliance 120 can be communicatively connected to the heating platform 110; and a controller provided to each of the appliances 120, the controller being capable of controlling the operation of the corresponding appliance 120.

The embodiment of the present invention provides a cooking device, which comprises a heating platform 110, a plurality of appliances 120 and a controller, particularly, any one of the appliances 120 of the plurality of appliances 120 is detachably disposed on the heating platform 110, it can be understood that when the appliance 120 is placed on the heating platform 110, the heating platform 110 can heat the appliance 120, and the heating platform 110 can be matched with the plurality of appliances 120, so that when the appliances 120 of different types are placed on the heating platform 110, the heating platform 110 can heat the appliances 120 of corresponding types. For example, the heating platform 110 is an electromagnetic oven, the appliances 120 include, but are not limited to, an electric rice cooker, a pressure cooker, a stirring device, a wall breaking machine, and the like, when the electric rice cooker is placed on the electromagnetic oven, the electromagnetic oven can heat the electric rice cooker to realize a cooking function, so that one common heating platform 110 can be used to satisfy the heating functions of multiple types of appliances 120, and thus, a heating device does not need to be arranged in the appliances 120 such as the electric rice cooker, the occupied space of the appliances 120 in a kitchen is greatly reduced, and the use experience of a user is improved.

When an appliance 120 is placed on the heating platform 110, the appliance 120 and the heating platform 110 can be communicatively connected, so that data transmission between the appliance 120 and the heating platform 110 can be achieved. For example, the tool 120 may receive a control command of the heating platform 110, and the heating platform 110 may also receive temperature data of the heating platform 110, so that the heating platform 110 controls the tool 120 to be heated according to the received temperature data. The appliance 120 and the heating platform 110 may be communicatively connected by Uart (Universal Asynchronous Receiver transmitter). Of course, the appliance 120 and the heating platform 110 may also be connected in communication by wireless communication, and may be specifically configured according to actual needs.

The appliances 120 are different in type, and the cooking functions implemented by the appliances are various, for example, the pressure detection function of the pressure cooker, the stirring function of the stirring device, the airflow circulation function in the air fryer, and so on, that is, the appliances 120 of different types need to be heated and simultaneously need to be correspondingly controlled by themselves, so as to enrich the use requirements of users. When different appliances 120 are replaced on the heating platform 110, the corresponding loads or control circuits are also replaced simultaneously, however, if different control circuits of different kinds of appliances 120 are integrated on the heating platform 110, the structure of the heating platform 110 is inevitably complicated, and if new products appear, the heating platform 110 cannot be adapted to the new products.

Through set up the controller on every utensil 120, the controller is used for controlling the utensil 120 that corresponds work, that is to say, set up the controller that can control the work of corresponding utensil 120 alone on every utensil 120 to when heating platform 110 heated utensil 120, every utensil 120 can also realize corresponding self-control according to its kind, has richened cooking utensil's service function, improves user's use and experiences. Moreover, various different control circuits do not need to be integrated on the heating platform 110, so that the structure of the heating platform 110 is simplified, and the production cost of the heating platform 110 is further reduced. In addition, by providing a separate controller for each fixture 120, even if new products are subsequently produced, the heating platform 110 can be matched with the fixtures, and the application range and applicability of the heating platform 110 are improved.

For example, the appliance 120 is an air fryer, the heating platform 110 is an induction cooker, when the air fryer is placed on the induction cooker, the air fryer can be in communication connection with the induction cooker, the induction cooker can transmit a control command to the air fryer, and the air fryer can transmit data such as heating temperature to the induction cooker, so that the heating function of the induction cooker on the air fryer is realized. The air is fried the pot and is still included the heater, fan and controller, the controller is used for controlling the heater and generate heat and the fan operation, thereby when the electromagnetism stove is fried the pot to the air, the pot self can also be realized heating and the function that inside air current flows is fried to the air, cooking utensil's multiple culinary art function has been richened, and then user's use experience is improved, and set up on the utensil 120 that corresponds through the controller that will be used for controlling utensil 120 self control, and not set up on heating platform 110, can simplify heating platform 110's structure, improve heating platform 110's suitability and application range, make the product that has not planned at present can realize the function expansion on heating platform 110.

Example two:

as shown in fig. 3, on the basis of the above embodiment, the cooking appliance further includes a first communication device 130 and a second communication device 140, wherein the first communication device 130 is disposed on the appliance 120, the second communication device 140 is disposed on the heating platform 110, the appliance 120 and the heating platform 110 are communicatively connected through the first communication device 130 and the second communication device 140, and the controller is connected to the first communication device 130.

In this embodiment, it is defined that the cooking appliance further comprises a first communication device 130 and a second communication device 140, specifically, the first communication device 130 is disposed on the appliance 120, the second communication device 140 is disposed on the heating platform 110, and when the appliance 120 is disposed on the heating platform 110, the appliance 120 and the heating platform 110 can be communicatively connected through the first communication device 130 and the second communication device 140. It can be appreciated that when the appliance 120 is disposed on the heating platform 110, the first communication device 130 can be communicatively coupled to the second communication device 140, thereby communicatively coupling the appliance 120 to the heating platform 110. Specifically, the appliance 120 may receive a control command of the heating platform 110, and the heating platform 110 may also receive temperature data of the heating platform 110, so that the heating platform 110 controls the appliance 120 to be heated according to the received temperature data. Wherein, the appliance 120 and the heating platform 110 can be communicatively connected by Uart communication. Of course, the appliance 120 and the heating platform 110 may also be connected in communication by wireless communication, and may be specifically configured according to actual needs.

In addition, the controller is connected to the first communication device 130, that is, when the appliance 120 is disposed on the heating platform 110, the first communication device 130 is in communication connection with the second communication device 140, and the first communication device 130 can transmit the received control command or signal to the controller, so that the controller can perform self-control on the appliance 120 according to the control command or signal transmitted by the heating platform 110, thereby improving the operation experience of the user. For example, a user inputs a temperature desired to be heated by the heating platform 110 on the appliance 120, the temperature is sent to the first communication device 130 through the controller, the first communication device 130 sends data information to the main control board of the heating platform 110, so that the main control board controls the heating platform 110 to heat the appliance 120 according to the corresponding temperature, meanwhile, the heating platform 110 sends a command to start working to the controller through the second communication device 140 and the first communication device 130, and the controller receives the command and then controls the appliance 120 to work, for example, controls a fan of an air fryer to start running.

Example three:

as shown in fig. 2 and 3, on the basis of the above embodiment, the cooking appliance further includes a connector 150, and the connector 150 is connected to the first communication device 130 and the second communication device 140 respectively.

In this embodiment, the cooking appliance is further defined to include a connector 150, specifically, the connector 150 is respectively connected to the first communication device 130 and the second communication device 140, that is, when the appliance 120 is disposed on the heating platform 110, the first communication device 130 and the second communication device 140 are connected through the connector 150, so that the appliance 120 and the heating platform 110 can be connected in communication, and data transmission between the appliance 120 and the heating platform 110 is realized.

It should be noted that the connector 150 includes, but is not limited to, a coupler, and may be specifically configured according to actual needs. It is understood that the connector 150, which enables the first communication device 130 to establish a communication connection with the second communication device 140 when the appliance 120 is disposed on the heating platform 110, is within the scope of the present application.

As shown in fig. 2 and 3, in addition to the above embodiments, the connector 150 is connected to an ac power supply.

In this embodiment, the connector 150 is connected to an ac power supply, that is, the connector 150 is provided with an interface to be connected to the ac power supply. It can be understood that different kinds of appliances 120, such as an electric cooker, an air fryer, etc., are supplied with ac power, and by connecting the connector 150 to the ac power, the connector 150 can be adapted to various different appliances 120, thereby improving the applicability and the application range of the cooking appliance.

In a specific embodiment, further, the connector 150 is a coupler, and when the tool 120 is disposed on the heating platform 110, the second communication device 140 is coupled to the first communication device 130 through the coupler.

In this embodiment, the connector 150 is defined as a coupler, and specifically, when the appliance 120 is disposed on the heating platform 110, the second communication device 140 is connected to the first communication device 130 through the coupler, so that the second communication device 140 is connected to the first communication device 130 when the appliance 120 is disposed on the heating platform 110, and further, the appliance 120 is connected to the heating platform 110. After the appliance 120 establishes a communication connection with the heating platform 110, the appliance 120 may receive a control command of the heating platform 110, and the heating platform 110 may also receive temperature data of the heating platform 110, so that the heating platform 110 controls heating of the appliance 120 according to the received temperature data.

Example four:

as shown in fig. 3, based on any of the above embodiments, further, the first communication device 130 includes a first receiving module 131, a first optical coupler 132, and a first resistor 133, wherein two ends of the first optical coupler 132 are respectively connected to the first receiving module 131 and the coupler, one end of the first resistor 133 is respectively connected to the first receiving module 131 and the first optical coupler 132, and the other end of the first resistor 133 is connected to the reference potential, the second communication device 140 includes a first sending module 141, the first sending module 141 is connected to the coupler, and when the appliance 120 is disposed on the heating platform 110, the first sending module 141 and the first optical coupler 132 form a first loop.

In this embodiment, the first communication device 130 is defined to include a first receiving module 131, a first optocoupler 132, and a first resistor 133. The second communication device 140 includes a first transmission module 141. Specifically, one end of the first optical coupler 132 is connected to the first receiving module 131, the other end of the first optical coupler 132 is connected to the coupler, one end of the first resistor 133 is connected to the first receiving module 131 and the first optical coupler 132, and the other end of the first resistor 133 is connected to a reference potential, that is, the first resistor 133 is a pull-up resistor, and by providing the first resistor 133, it is possible to output a high level to the first receiving module 131 when the first optical coupler 132 is turned off, and to realize communication of the heating stage 110 to the appliance 120. The first transmitting module 141 is connected to the coupler such that the first transmitting module 141 and the first optical coupler 132 form a first loop when the fixture 120 is disposed on the heating platform 110. Specifically, when the first transmitting module 141 inputs a low level, the first loop is conductive, and when the first transmitting module 141 inputs a high level, the first loop is non-conductive. Enabling communication of the heating platform 110 to the appliance 120.

The optical coupler is used for realizing communication between the appliance 120 and the heating platform 110, so that a communication circuit between the appliance 120 and the heating platform 110 can be isolated, a fryer caused by non-equipotential between the appliance 120 and the heating platform 110 is prevented, and the use safety of the cooking appliance is improved.

In a specific embodiment, as shown in fig. 3, the coupler includes a first interface, a second interface, and a third interface, and the appliance 120 is further provided with a fourth interface, a fifth interface, and a sixth interface, the coupler includes at least 6 wires, one end of the 6 wires is respectively connected to 6 interfaces on the coupler, three of the 6 wires are connected to the ac power supply, in addition, the first wire is respectively connected to the first interface and the fourth interface, corresponding to the left interface 3 and the right interface 1 in the drawing, the second wire is respectively connected to the second interface and the fifth interface, corresponding to the left interface 2 and the right interface 2 in the drawing, the third wire is respectively connected to the third interface and the sixth interface, corresponding to the left interface 1 and the right interface 3 in the drawing, and the sixth interface is connected to the reference level, and the Uart communication mode is adopted.

When the first transmitting module 141 inputs a low level, the first loop is turned on, the 3 interface and the 4 interface of the first optical coupler 132 are shorted, and the first receiving module 131 outputs a low level. When the first transmitting module 141 inputs a high level, the first loop is not turned on, the 3 interface and the 4 interface of the first optocoupler 132 are disconnected, the first resistor 133 is a pull-up resistor, and the first receiving module 131 outputs a high level when the first optocoupler 132 is turned off. Enabling communication of the heating platform 110 to the appliance 120.

As shown in fig. 3, in addition to the above embodiment, the first communication device 130 further includes a second transmitting module 134 and a second optical coupler 135, wherein two ends of the second optical coupler 135 are respectively connected to the second transmitting module 134 and the coupler, the second communication device 140 further includes a second receiving module 142 and a second resistor 143, the second receiving module 142 is connected to the coupler, when the appliance 120 is disposed on the heating platform 110, the second transmitting module 134 and the second optical coupler 135 form a second loop, one end of the second resistor 143 is connected to the second receiving module 142, and the other end of the second resistor 143 is grounded.

In this embodiment, the first communication device 130 further includes a second transmitting module 134 and a second optical coupler 135. The second communication device 140 further includes a second receiving module 142 and a second resistor 143. Specifically, one end of the second optical coupler 135 is connected to the second transmitting module 134, and the other end of the second optical coupler 135 is connected to the coupler, so that when the fixture 120 is placed on the heating stage 110, the second transmitting module 134 and the second optical coupler 135 form a second loop, and when the second transmitting module 134 inputs a high level, the second loop is turned on, and when the second transmitting module 134 inputs a low level, the second loop is turned off. The second receiving module 142 is connected to the coupler, one end of the second resistor 143 is connected to the second receiving module 142, and the other end of the second resistor 143 is grounded, that is, the second resistor 143 is a pull-down resistor, and by providing the second resistor 143, when the second loop is not turned on, that is, the second optical coupler 135 is turned off, the second resistor 143 can enable the second receiving module 142 to output a low level. Thereby enabling communication from the appliance 120 to the heating platform 110.

In a specific embodiment, as shown in fig. 3, the coupler includes a first interface, a second interface, and a third interface, and the appliance 120 is further provided with a fourth interface, a fifth interface, and a sixth interface, the coupler includes at least 6 wires, one end of the 6 wires is respectively connected to 6 interfaces on the coupler, three of the 6 wires are connected to the ac power supply, in addition, the first wire is respectively connected to the first interface and the fourth interface, corresponding to the left interface 3 and the right interface 1 in the drawing, the second wire is respectively connected to the second interface and the fifth interface, corresponding to the left interface 2 and the right interface 2 in the drawing, the third wire is respectively connected to the third interface and the sixth interface, corresponding to the left interface 1 and the right interface 3 in the drawing, and the sixth interface is connected to the reference level, and the Uart communication mode is adopted.

When the second transmitting module 134 inputs a high level, the second loop is turned on, the 3 interface and the 4 interface of the second optical coupler 135 are shorted, and the second receiving module 142 outputs a high level. When the second transmitting module 134 inputs a low level, the second loop is not turned on, the interface 3 and the interface 4 of the second optical coupler 135 are disconnected, and since the other end of the second resistor 143 is grounded, that is, the second resistor 143 is a pull-down resistor, when the second optical coupler 135 is turned off, the second receiving module 142 outputs a low level. Thereby enabling communication of the appliance 120 to the heating platform 110.

As shown in fig. 3, based on the above embodiment, the first communication device 130 further includes a third resistor 136, and the third resistor 136 is connected to the second sending module 134 and the second optical coupler 135, respectively.

In this embodiment, it is defined that the first communication device 130 further includes a third resistor 136, and specifically, the third resistor 136 is disposed between the second sending module 134 and the second optical coupler 135, that is, the third resistor 136 is formed on the second loop, and the third resistor 136 divides the voltage to implement conduction of the first loop.

As shown in fig. 3, on the basis of the above embodiment, further, the second communication device 140 further includes a fourth resistor 144, and the fourth resistor 144 is respectively connected to the first transmitting module 141 and the coupler.

In this embodiment, the second communication device 140 further includes a fourth resistor 144, specifically, one end of the fourth resistor 144 is connected to the coupler, and the other end of the fourth resistor 144 is connected to the first sending module 141, that is, the fourth resistor 144 is formed on the second loop, and the second loop can be turned on after voltage division is performed by the fourth resistor 144.

As shown in fig. 2, based on the above embodiment, the connector 150 further includes at least six interfaces, three interfaces of the at least six interfaces are used for connecting an ac power supply, and the at least six interfaces further include a first interface, a second interface, and a third interface, where the first sending module 141 and the first optical coupler 132 form a first loop through the first interface, the second receiving module 142 and the second optical coupler 135 form a second loop through the second interface, and the third interface is connected to the reference potential.

In this embodiment, the connector 150 is defined to include at least six interfaces, wherein three interfaces are used for connecting to an ac power source, and it can be understood that the three interfaces are respectively connected to the N neutral wire, the L live wire and the GND ground, and by connecting the connector 150 to the ac power source, the connector 150 can be adapted to a plurality of different products of the cooking appliance 120, thereby improving the applicability and the application range of the cooking appliance. Further, the at least six interfaces further include a first interface, a second interface, and a third interface, specifically, the first transmitting module 141 and the first optical coupler 132 form a first loop through the first interface, the second receiving module 142 and the second optical coupler 135 form a second loop through the second interface, and the third interface is connected to the reference potential.

In a specific embodiment, as shown in fig. 3, the appliance 120 is further provided with a fourth interface, a fifth interface and a sixth interface, the connector 150 includes at least 6 wires, three of the at least 6 wires are connected to the ac power supply, in addition, the first wire is respectively connected to the first interface and the fourth interface, corresponding to the left interface 3 and the right interface 1 in the drawing, the second wire is respectively connected to the second interface and the fifth interface, corresponding to the left interface 2 and the right interface 2 in the drawing, the third wire is respectively connected to the third interface and the sixth interface, corresponding to the left interface 1 and the right interface 3 in the drawing, and the sixth interface is connected to the reference level, and the Uart communication mode is adopted for communication. When the first transmitting module 141 inputs a low level, the first loop is turned on, the 3 interface and the 4 interface of the first optical coupler 132 are shorted, and the first receiving module 131 outputs a low level. When the first transmitting module 141 inputs a high level, the first loop is not turned on, the 3 interface and the 4 interface of the first optocoupler 132 are disconnected, the first resistor 133 is a pull-up resistor, and the first receiving module 131 outputs a high level when the first optocoupler 132 is turned off. Enabling communication of the heating platform 110 to the appliance 120.

When the second transmitting module 134 inputs a high level, the second loop is turned on, the 3 interface and the 4 interface of the second optical coupler 135 are shorted, and the second receiving module 142 outputs a high level. When the second transmitting module 134 inputs a low level, the second loop is not turned on, the interface 3 and the interface 4 of the second optical coupler 135 are disconnected, and since the other end of the second resistor 143 is grounded, that is, the second resistor 143 is a pull-down resistor, when the second optical coupler 135 is turned off, the second receiving module 142 outputs a low level. Thereby enabling communication of the appliance 120 to the heating platform 110. It can be understood that fig. 3 is a schematic view of the appliance 120 not being disposed on the heating platform 110, and when the appliance 120 is disposed on the heating platform 110, the appliance 120 can communicate with the heating platform 110 in two directions by the communication device shown in fig. 3.

In a specific embodiment, the heating platform 110 further includes a main control board connected to the second communication device 140, and the coupler includes a lower coupler and an upper coupler, wherein the lower coupler is disposed on the heating platform 110 and connected to the main control board, and the upper coupler is disposed on the fixture 120 and connected to the controller.

In this embodiment, the heating platform 110 includes a main control board, and the coupler includes a lower coupler and an upper coupler, and specifically, the lower coupler is disposed on the heating platform 110 and connected to the main control board, the upper coupler is disposed on the fixture 120 and connected to the controller, so that the fixture 120 is coupled to the heating platform 110 when the fixture 120 is disposed on the heating platform 110. In addition, the first communication device 130 is connected to the upper coupler, the second communication device 140 is connected to the lower coupler, and when the fixture 120 is disposed on the heating platform 110, the first communication device 130 and the second communication device 140 are communicatively connected through the upper coupler and the lower coupler, so as to communicatively connect the fixture 120 and the heating platform 110.

In addition, the heating platform 110 includes a main control board, and the second communication device 140 is connected to the main control board, so that the second communication device 140 can transmit the temperature data received from the first communication device 130 on the appliance 120 to the main control board, so that the main control board can control the heating platform 110 to operate according to the temperature data.

In a specific embodiment, further, the first communication device 130 includes a first wireless communication module, and the second communication device 140 includes a second wireless communication module.

In this embodiment, it is defined that the first communication device 130 includes a first wireless communication module, and the second communication device 140 includes a second wireless communication module, that is, when the appliance 120 is disposed on the heating platform 110, the appliance 120 and the heating platform 110 are communicatively connected through the first wireless communication module and the second wireless communication module, that is, the appliance 120 and the heating platform 110 are in wireless communication, and data communication between the appliance 120 and the heating platform 110 is realized. For example, the appliance 120 and the heating platform 110 are connected via bluetooth communication via a wireless communication link.

In a specific embodiment, further, the controller includes a single chip microcomputer and a power supply part, wherein the power supply part is electrically connected with the single chip microcomputer.

In this embodiment, it includes singlechip and power supply to have injectd the controller to when heating platform 110 heats utensil 120, utensil 120 can also realize self-control through the singlechip of controller etc. thereby further richened utensil 120's culinary art function, promoted user's use and experienced.

For example, heating platform 110 is the electromagnetism stove, utensil 120 is the air fryer, when frying the pot with the air and placing on the electromagnetism stove, the electromagnetism stove can heat the air fryer, and the air fryer itself can include the fan, when the work of the air fryer, the fan operation can promote the inside air current circulation of air fryer, be convenient for realize the even heating of eating the material, through set up the controller on utensil 120 (air fryer), the controller includes the singlechip and the power supply spare for the singlechip power supply, can realize the control to the fan, and then richened cooking utensil's multiple culinary art function. Moreover, because the kind of utensil 120 is different, therefore, the control circuit of control utensil 120 is also different, if integrate on heating platform 110 with the control circuit of multiple difference, then can lead to heating platform 110 structure complicated, and if new kind of utensil 120 appears, this heating platform 110 of unable adaptation, through set up the controller that is used for self-control on every utensil 120, and the controller includes the singlechip and the power supply spare for the singlechip power supply, can be on the basis of abundant cooking utensil service function, make heating platform 110 have the expansibility, improve heating platform 110's suitability.

In addition, the power supply element is electrically connected with the single chip microcomputer, namely, the self-control of the appliance 120 is realized by the independent power supply of the power supply element, so that the convenience of the cooking appliance is improved.

In a specific embodiment, the heating platform 110 is an induction cooker.

In this embodiment, the heating platform 110 is defined as an induction cooker, and when different types of appliances 120 are placed on the induction cooker, the induction cooker can heat the different types of appliances 120 to realize different functions, so that one common induction cooker can be used to satisfy the heating functions of the multiple types of appliances 120, and thus, a heating device does not need to be arranged in the appliances 120 such as an electric cooker, the occupied space of the appliances 120 in a kitchen is greatly reduced, and the use experience of a user is improved.

In addition, the electromagnetic oven utilizes the coil panel to generate an alternating magnetic field under the action of the control circuit, eddy current can appear in a conductor (cooker) in the alternating magnetic field, and the joule heat effect of the eddy current enables the conductor to be heated, so that heating is realized. The electromagnetic oven has the advantages of high heating speed, energy conservation, environmental protection, multiple functions, high safety, convenient use, economy, practicability and the like, is easy to clean, and can reduce the production cost of cooking appliances on the basis of heating different types of appliances 120 by setting the heating platform 110 into the electromagnetic oven.

In another specific embodiment, further, the utensil 120 includes a rice cooker, a pressure cooker, and an air fryer.

In this embodiment, the appliances 120 are limited to electric cookers, pressure cookers, and air fryers, but the appliances 120 defined in the present application are not limited to the above-mentioned type of appliances 120, and may include appliances 120 requiring heating functions, such as wall breaking machines. Thereby enabling different functions when different types of appliances 120 are replaced on the heating platform 110.

For example, when the inner pot of the electric cooker is placed on the heating platform 110, the cooking function can be realized; when the pressure inner pot is placed on the heating platform 110, the function of the pressure pot can be realized; when the stirring container and the stirring cover are placed on the heating platform 110, stirring and heating functions and the like can be realized; when an air fryer is placed on the heating platform 110, an air-frying function and the like can be realized.

In the description of the present specification, the terms "connect", "mount", "fix", and the like are to be understood in a broad sense, for example, "connect" may be a fixed connection, a detachable connection, or an integral connection; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the description of the present specification, 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 is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to 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 (15)

1. A cooking appliance, comprising:

a heating platform;

the heating platform is detachably arranged on the base, and the heating platform is provided with a plurality of appliances, any one of the appliances is detachably arranged on the heating platform, and when the appliance is arranged on the heating platform, the appliance can be in communication connection with the heating platform;

and the controller is arranged on each appliance and can control the corresponding appliance to work.

2. The cooking appliance of claim 1, further comprising:

a first communication device provided to the appliance;

the second communication device is arranged on the heating platform, and the appliance is in communication connection with the heating platform through the first communication device and the second communication device;

wherein the controller is connected with the first communication device.

3. The cooking appliance of claim 2, further comprising:

and connectors respectively connected with the first communication device and the second communication device.

4. The cooking appliance of claim 3,

the connector is connected with an alternating current power supply.

5. The cooking appliance of claim 3,

the connector is a coupler, and when the appliance is arranged on the heating platform, the second communication device is coupled with the first communication device through the coupler.

6. The cooking appliance of claim 5,

the first communication device includes:

a first receiving module;

the two ends of the first optical coupler are respectively connected with the first receiving module and the coupler;

one end of the first resistor is connected with the first receiving module and the first optical coupler respectively, and the other end of the first resistor is connected with a reference potential;

the second communication device includes:

and the first sending module is connected with the coupler, and when the appliance is arranged on the heating platform, the first sending module and the first optical coupler form a first loop.

7. The cooking appliance of claim 6,

the first communication device further comprises:

a second sending module;

the two ends of the second optical coupler are respectively connected with the second sending module and the coupler;

the second communication device further includes:

the second receiving module is connected with the coupler, and when the appliance is arranged on the heating platform, the second sending module and the second optical coupler form a second loop;

and one end of the second resistor is connected with the second receiving module, and the other end of the second resistor is grounded.

8. The cooking appliance of claim 7, wherein the first communication device further comprises:

and the third resistor is respectively connected with the second sending module and the second optical coupler.

9. The cooking appliance of claim 6, wherein the second communication device further comprises:

and the fourth resistor is respectively connected with the first sending module and the coupler.

10. The cooking appliance of claim 7, wherein the connector comprises:

at least six interfaces, three interfaces in at least six interfaces are used for connecting alternating current power supply, six interfaces still include:

the first sending module and the first optical coupler form the first loop through the first interface;

the second receiving module and the second optical coupler form the second loop through the second interface;

and a third interface connected to the reference potential.

11. The cooking appliance of claim 5, wherein the heating platform comprises a main control board connected to a second communication device, the coupler comprising:

the lower coupler is arranged on the heating platform and is connected with the main control board;

and the upper coupler is arranged on the appliance and is connected with the controller.

12. The cooking appliance of claim 2,

the first communication device includes a first wireless communication module, and the second communication device includes a second wireless communication module.

13. The cooking appliance of any one of claims 1 to 12, wherein the controller comprises:

a single chip microcomputer;

and the power supply part is electrically connected with the single chip microcomputer.

14. The cooking appliance according to any one of claims 1 to 12,

the heating platform is an induction cooker.

15. The cooking appliance according to any one of claims 1 to 12,

the appliance comprises an electric cooker, a pressure cooker and an air fryer.

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