CN110581790B - Control method and device - Google Patents

Abstract

The invention discloses a control method and a control device, which are applied to first mobile equipment, wherein the first mobile equipment can communicate with household electrical appliance equipment in a first communication mode, and the method further comprises the following steps: determining N second mobile devices cooperating with the first mobile device; determining a target recipe according to the food to be made, and distributing food material processing and/or weighing tasks in the target recipe for the N second mobile devices; respectively sending food material processing and/or weighing tasks corresponding to the corresponding second mobile devices to the N second mobile devices; and receiving the data and/or the weighing data which are sent by the N second mobile devices and used for representing the food material processing condition, and outputting the data and/or the weighing data used for representing the food material processing condition. By adopting the technical scheme of the invention, a plurality of users can simultaneously use a plurality of household appliances to collaborate to complete food production, and the collaboration efficiency of each user is improved.

Description

Control method and device

Technical Field

The invention relates to the technical field of kitchen appliance control, in particular to a control method and a control device.

Background

With the gradual improvement of the pursuit of people on the quality of life, the requirements on the intellectualization and humanization of kitchen appliances are higher and higher.

For delicate foods such as baked foods, the foods are often made from multiple food materials through multiple processes, the making process is usually complex, and the requirement on the weight of the food materials is accurate. And a certain process is wrong or the weight of the food materials is inaccurate, so that the desired taste effect is often not achieved, and the working efficiency of making food is not high. In addition, if a plurality of users cooperate to complete a food order, how to improve the cooperation efficiency is also one of the problems to be solved urgently.

Disclosure of Invention

In view of the above, the present invention is directed to a control method and apparatus, which enable a plurality of users to collaborate with a plurality of home appliances to complete food production, thereby improving the collaboration efficiency of each user.

In order to achieve the purpose, the technical scheme of the invention is realized as follows:

in a first aspect, an embodiment of the present invention provides a control method, which is applied to a first mobile device, where the first mobile device can communicate with a home appliance through a first communication method, and the method further includes:

determining N second mobile devices cooperating with the first mobile device; wherein N is a positive integer greater than or equal to 1;

determining a target recipe according to the food to be made, and distributing food material processing and/or weighing tasks in the target recipe for the N second mobile devices;

respectively sending food material processing and/or weighing tasks corresponding to the corresponding second mobile devices to the N second mobile devices;

and receiving the data and/or the weighing data which are sent by the N second mobile devices and used for representing the food material processing condition, and outputting the data and/or the weighing data used for representing the food material processing condition.

In the foregoing solution, optionally, the first mobile device and the second mobile device communicate with each other in a second communication manner; and the second mobile equipment is communicated with the household appliance equipment in a first communication mode.

In the foregoing scheme, optionally, the method further includes:

analyzing the data and/or weighing data which are sent by the N second mobile devices and used for representing the food material processing condition;

determining the task execution progress of each second mobile device and/or the preparation progress of the food to be prepared according to the analysis result;

and locally outputting the task execution progress of each second mobile device and/or the preparation progress of the food to be prepared, and sending the task execution progress of each second mobile device and/or the preparation progress of the food to be prepared to the N second mobile devices.

In the foregoing scheme, optionally, the method further includes:

after the first mobile device establishes a communication connection with the paired home device,

receiving food material processing condition data or weighing data returned by the household appliance;

and outputting the data used for representing the food material processing condition and/or the weighing data, and sending the data representing the food material processing condition of the first mobile equipment and/or the weighing data to the N second mobile equipment.

In a second aspect, an embodiment of the present invention provides a control method, which is applied to a second mobile device, where the second mobile device can communicate with an electrical home appliance through a first communication method, and the method further includes:

receiving a food material processing and/or weighing task distributed by a first mobile device to a second mobile device;

acquiring data and/or weighing data which are sent by the household appliance device paired with the second mobile device and used for representing food material processing conditions;

and locally outputting the data and/or the weighing data of the food material processing condition, and sending the data and/or the weighing data of the food material processing condition to the first mobile equipment.

In the foregoing scheme, optionally, the method further includes:

and determining and outputting the task execution progress of each household appliance device paired with the second mobile device.

In the foregoing scheme, optionally, the method further includes:

receiving and displaying data and/or weighing data and/or the preparation progress of food to be prepared, which are sent by first mobile equipment and represent the food material processing condition of the first mobile equipment; and/or

And receiving and displaying data and/or weighing data which are sent by other second mobile equipment and represent the food material processing conditions of the other second mobile equipment.

In a third aspect, an embodiment of the present invention provides a control apparatus, which is applied to a first mobile device, where the apparatus includes:

the first networking module is used for communicating with the household appliance in a first communication mode;

a first processing module to determine N second mobile devices cooperating with the first mobile device; wherein N is a positive integer greater than or equal to 1; determining a target recipe according to the food to be made, and distributing food material processing and/or weighing tasks in the target recipe for the N second mobile devices;

the first transceiver module is used for respectively transmitting food material processing and/or weighing tasks corresponding to the corresponding second mobile devices to the N second mobile devices; receiving data and/or weighing data which are sent by the N second mobile devices and used for representing food material processing conditions;

and the first output module is used for outputting the data for representing the food material processing condition and/or the weighing data.

In the foregoing solution, optionally, the first mobile device and the second mobile device communicate with each other in a second communication manner; and the second mobile equipment is communicated with the household appliance equipment in a first communication mode.

In the foregoing scheme, optionally, the first processing module is further configured to analyze data and/or weighted data, which are sent by the N second mobile devices and used for characterizing food material processing conditions; determining the task execution progress of each second mobile device and/or the preparation progress of the food to be prepared according to the analysis result;

the first output module is further used for locally outputting the task execution progress of each second mobile device and/or the preparation progress of the food to be prepared;

the first transceiver module is further configured to send the task execution progress of each second mobile device and/or the preparation progress of the food to be prepared to the N second mobile devices.

In the foregoing scheme, optionally, the first networking module is further configured to receive data of food material processing conditions or weighing data returned by the home appliance after the first mobile device establishes a communication connection with the home appliance paired with the first mobile device;

the first output module is further used for outputting the data for representing the food material processing condition and/or the weighing data;

the first transceiver module is further configured to send data and/or weighing data representing a food material processing condition of the first mobile device to the N second mobile devices.

In a fourth aspect, an embodiment of the present invention provides a control apparatus, which is applied to a second mobile device, where the apparatus includes:

the second networking module is used for communicating with the household appliance through a first communication mode;

the second transceiver module is used for receiving food material processing and/or weighing tasks distributed to the second mobile equipment by the first mobile equipment;

the second processing module is used for acquiring data and/or weighing data which are sent by the household appliance device paired with the second mobile device and used for representing food material processing conditions;

the second output module is used for locally outputting the data of the food material processing condition and/or the weighing data;

the second transceiver module is further configured to send the data of the food material processing condition and/or the weighing data to the first mobile device.

In the foregoing solution, optionally, the second processing module is further configured to determine a task execution progress of each home appliance device paired with the second mobile device; the second output module is further configured to output a task execution progress of each home appliance device paired with the second mobile device.

In the above scheme, optionally, the second transceiver module is further configured to receive data and/or weighing data representing a food material processing condition of the first mobile device and/or a preparation progress of a food to be prepared, where the data and/or weighing data are sent by the first mobile device; the second output module is further used for displaying data representing the food material processing condition of the first mobile equipment and/or weighing data and/or the making progress of food to be made; and/or

The second transceiver module is further configured to receive data and/or weighing data, which are sent by other second mobile devices and represent food material processing conditions of the other second mobile devices; and the second output module is also used for displaying data representing the food material processing condition of the other second mobile equipment and/or weighing data.

The control method and/or device provided by the embodiment of the invention determine N second mobile devices which cooperate with the first mobile device; determining a target recipe according to the food to be made, and distributing food material processing and/or weighing tasks in the target recipe for the N second mobile devices; respectively sending food material processing and/or weighing tasks corresponding to the corresponding second mobile devices to the N second mobile devices; and receiving the data and/or the weighing data which are sent by the N second mobile devices and used for representing the food material processing condition, and outputting the data and/or the weighing data used for representing the food material processing condition. By adopting the technical scheme of the embodiment of the invention, the target recipe is divided into a plurality of subtasks, the N second mobile devices respectively display the subtasks corresponding to the N second mobile devices, and then the user corresponding to each second mobile device can know the subtasks which the user should do at the first time.

Drawings

Fig. 1 is a flowchart illustrating a control method applied to a first mobile device according to an embodiment of the present invention;

fig. 2 is a schematic weighing diagram of a first mobile device or a second mobile device displaying food material weight information obtained by a home appliance device according to an embodiment of the present invention;

fig. 3 is a flowchart illustrating a control method applied to a second mobile device according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of an implementation process of a plurality of persons completing a same food order in cooperation according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a control apparatus applied to a first mobile device side according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a control apparatus applied to a second mobile device side according to an embodiment of the present invention;

fig. 7 is a schematic composition diagram of a control system according to an embodiment of the present invention.

Detailed Description

So that the manner in which the features and aspects of the present invention can be understood in detail, a more particular description of the invention, briefly summarized above, may be had by reference to embodiments, some of which are illustrated in the appended drawings.

The first mobile device and the second mobile device described in the following embodiments include, but are not limited to, a mobile phone, a tablet computer, a notebook computer, a wearable device, a television, and the like. The household appliances described in the following embodiments include, but are not limited to, kitchen scales, cooking appliances with weighing function, such as electric rice cookers, electric pressure cookers, electric sauteing pans, electric baking pans, bread makers, baking machines, and the like.

Example one

Fig. 1 is a flowchart illustrating a control method applied to a first mobile device according to an embodiment of the present invention, where the first mobile device can communicate with an electrical home appliance through a first communication method, as shown in fig. 1, the method includes:

step 101: determining N second mobile devices cooperating with the first mobile device; wherein N is a positive integer greater than or equal to 1.

Here, the first mobile device is a mobile device corresponding to an initiator, and the second mobile device is a mobile device corresponding to a collaborator.

Here, the second mobile device communicates with the home appliance through a first communication method.

Here, the first mobile device and the second mobile device communicate with each other in a second communication manner.

Preferably, the second communication method and the first communication method are two different communication methods.

Therefore, the first mobile device and the second mobile device are communicated, and the communication between the first mobile device and the household appliance device cannot interfere with each other, so that the rapid transmission of data is guaranteed.

Similarly, the second mobile device and the communication between the first mobile devices, and the communication between the second mobile device and the household appliance device do not interfere with each other, thereby being helpful to ensure the rapid transmission of data.

Wherein the first communication mode includes, but is not limited to, the following communication modes:

bluetooth, WIFI, infrared, mobile data, wired communication.

Wherein the second communication mode includes but is not limited to the following communication modes:

bluetooth, WIFI, infrared, mobile data, wired communication.

As an optional implementation manner, bluetooth is used for communication between each second mobile device and the home appliance device paired with the second mobile device, and WIFI or mobile data communication is used between the first mobile device and the second mobile device.

As an optional implementation manner, WIFI communication is adopted between each second mobile device and the home appliance device paired with the second mobile device, and mobile data network communication is adopted between the first mobile device and the second mobile device.

As an optional implementation manner, each second mobile device and the home appliance device paired with the second mobile device communicate with each other through a mobile data network, and the first mobile device and the second mobile device communicate with each other through WIFI.

Preferably, each second mobile device corresponds to at least one home device. In this way, it is helpful for each second mobile device to have a tool for performing the task after it is received by the collaborator, and it is also helpful for improving the efficiency of multiple users completing the same food order.

Of course, the same home device may be shared by multiple second mobile devices.

As an embodiment, the determining N second mobile devices cooperating with the first mobile device includes:

and determining N second mobile devices which cooperate with the first mobile device according to the target recipe corresponding to the food to be made and the available number of the second mobile devices.

As a specific implementation manner, when the number of the second mobile devices is sufficient, N food material processing and/or weighing tasks are determined according to the target recipe corresponding to the food to be made, and N second mobile devices are selected from the plurality of second mobile devices.

As a specific embodiment, when the number of the second mobile devices is small, N second mobile devices are selected from the plurality of second mobile devices; and then dividing the target recipe corresponding to the food to be made into N food material processing and/or weighing tasks according to the number of the selected second mobile devices.

Of course, there are other ways to determine the N second mobile devices cooperating with the first mobile device, and the ways are not limited to the above-listed ones, and are not described herein again.

As an embodiment, before determining N second mobile devices cooperating with the first mobile device, the method further comprises:

the first mobile equipment sends a first cooperation request to each second mobile equipment; the first cooperation request is used for requesting cooperation to complete the same food order;

the first mobile equipment receives first cooperation responses returned by the second mobile equipment; the first cooperation response is divided into two modes of cooperation and non-cooperation;

and the first mobile device screens out available second mobile devices according to the first cooperation response.

Step 102: and determining a target recipe according to the food to be made, and distributing food material processing and/or weighing tasks in the target recipe for the N second mobile devices.

As an embodiment, the first mobile device has a first application installed thereon, the first application being capable of providing a recipe and dividing the recipe into a plurality of food material processing and/or weighing tasks.

In a specific embodiment, a first application on the first mobile device receives food information to be made input by an initiator, outputs a plurality of related recipes which can be selected according to the food information to be made, and determines a recipe selected by the initiator as a target recipe based on a selection operation when the selection operation input by the initiator is received.

Step 103: and respectively sending food material processing and/or weighing tasks corresponding to the corresponding second mobile devices to the N second mobile devices.

In a specific embodiment, the first mobile device sends the food material processing and/or weighing tasks corresponding to the corresponding second mobile devices to the N second mobile devices through a first communication mode.

Optionally, before transmitting the food material processing and/or weighing tasks corresponding to the respective second mobile devices to the N second mobile devices, the method further includes:

acquiring collaborator tags provided by the N second mobile devices;

determining food material processing and/or weighing tasks for the N second mobile devices according to the collaborator tags;

wherein the collaborator tag is used for characterizing the food material processing content which is good at by the collaborator corresponding to the second mobile device.

Therefore, the characteristics of each collaborator can be effectively combined, tasks suitable for the characteristics of the collaborator can be distributed, and the efficiency of making food can be improved.

Step 104: and receiving the data and/or the weighing data which are sent by the N second mobile devices and used for representing the food material processing condition, and outputting the data and/or the weighing data used for representing the food material processing condition.

Therefore, the first mobile equipment terminal outputs the data and/or the weighing data which are/is used for representing the food material processing condition and are/is sent by the second mobile equipment, and the starter is further facilitated to have overall control on the manufacturing progress of the food to be manufactured.

Further, the method further comprises:

analyzing the data and/or weighing data which are sent by the N second mobile devices and used for representing the food material processing condition;

determining the task execution progress of each second mobile device and/or the preparation progress of the food to be prepared according to the analysis result;

locally outputting the task execution progress of each second mobile device and/or the preparation progress of the food to be prepared; or

And sending the task execution progress of each second mobile device and/or the preparation progress of the food to be prepared to the N second mobile devices while locally outputting the task execution progress of each second mobile device and/or the preparation progress of the food to be prepared.

In this way, the first mobile equipment terminal outputs the task execution progress of each second mobile equipment and/or the preparation progress of the food to be prepared, so that the initiator is facilitated to have overall control on the preparation progress of the food to be prepared; meanwhile, the task execution progress of each second mobile device and/or the preparation progress of the food to be prepared is sent to each second mobile device, so that collaborators can know the task execution condition of each collaborator conveniently, and the coordination of tasks which are not executed among the collaborators or by the sponsor is facilitated.

Further, the method further comprises:

after the first mobile device and the household appliance matched with the first mobile device establish communication connection, receiving food material processing condition data or weighing data returned by the household appliance;

outputting the data for representing the food material processing condition and/or the weighing data; or

And transmitting the data and/or the weighing data representing the food material processing condition of the first mobile equipment to the N second mobile equipment while outputting the data and/or the weighing data representing the food material processing condition of the food material processing condition.

In practice, the originator may not be tasked with completing a food order, or the originator may be tasked with collaborators.

Fig. 2 is a schematic diagram illustrating weighing of the food material weight information obtained by the home appliance device displayed by the first mobile device or the second mobile device, as shown in fig. 2, the weight information of the currently-called food material, such as 32.3 g, is displayed by the first mobile device or the second mobile device; meanwhile, the proportion relationship between the current weighing capacity and the maximum weighing value supported by the household appliance is also displayed, the proportion relationship can be represented by different line types, as shown in fig. 2, and the dotted line represents the proportion between the current weighing capacity and the maximum weighing value supported by the household appliance. Of course, the proportion relationship may be represented in other forms, for example, the proportion relationship may be represented by lines with different colors, where a line corresponding to a first color represents a current weight value, and a line corresponding to a second color represents a weight value that the household electrical appliance can still bear; wherein the first color and the second color are different colors.

For example, the first mobile device is paired with the home appliance 1, the second mobile device 1 is paired with the home appliance 2, and the second mobile device 2 is paired with the home appliance 3; then, the home appliance 1 sends the weight of the currently-called food material to the first mobile device; the household appliance 2 sends the weight of the food material currently called by the household appliance to the second mobile device 1; the home device 3 sends the weight of its currently-called food material to the second mobile device 2.

Wherein, the household electrical appliance has the function of weighing, for example, the household electrical appliance can be a kitchen scale. Of course, the household electrical appliance can also be a cooking appliance integrated with a weighing function, such as an electric cooker, an electric baking pan, an electric pressure cooker and the like.

For example, the initiator determines a food C to be made, p food materials are needed for making the food C, which are respectively marked as C1, … and Cp, the initiator is matched with p-1 collaborators through a first mobile device, the p-1 collaborators correspond to p-1 second mobile devices, each second mobile device has a home appliance matched with the second mobile device, the first mobile device has a home appliance matched with the first mobile device, the first mobile device divides a target recipe of the food C to be made into p food material processing and weighing tasks, and sends one food material processing and weighing task to each second mobile device, and the initiator also needs to complete one of the processing and weighing tasks, that is, the food materials to be completed by each person are different. In this way, collaborators can execute tasks such as material selection, material taking, weighing, food processing and the like according to food material processing and weighing tasks displayed on the second mobile equipment held by the collaborators; the execution task of each collaborator is clear, so that each collaborator can be quickly involved in the task execution activity. Each household appliance sends the weighed food material weight to the matched moving device, and each collaborator can increase or decrease the food material according to the weight information displayed on the second mobile device, so that the weight of the current food material meets the target weight value of the task. Each second mobile device sends the current task execution condition of each collaborator to the first mobile device, and the initiator can know the task execution condition of each collaborator through the first mobile device, so that the initiator can macroscopically know the task execution condition of each collaborator, and can allocate tasks according to the task execution condition, so that food material processing and weighing tasks can be rapidly completed, and the work efficiency of completing food to be made is improved.

By adopting the technical scheme of the embodiment of the invention, the target recipe is divided into a plurality of subtasks, the N second mobile devices respectively display the subtasks corresponding to the N second mobile devices, and then the user corresponding to each second mobile device can know the subtasks which the user should do at the first time.

Example two

Fig. 3 is a flowchart illustrating a control method applied to a second mobile device according to an embodiment of the present invention, where the second mobile device can communicate with an electric home appliance through a first communication method, as shown in fig. 3, the method further includes:

step 301: and the second mobile equipment receives the food processing and/or weighing task distributed to the second mobile equipment by the first mobile equipment.

Here, the first mobile device is a mobile device corresponding to an initiator, and the second mobile device is a mobile device corresponding to a collaborator.

Here, the first mobile device and the second mobile device communicate with each other in a second communication manner.

Preferably, the second communication method and the first communication method are two different communication methods.

Therefore, the first mobile device and the second mobile device are communicated, and the communication between the first mobile device and the household appliance device cannot interfere with each other, so that the rapid transmission of data is guaranteed.

Similarly, the second mobile device and the communication between the first mobile devices, and the communication between the second mobile device and the household appliance device do not interfere with each other, thereby being helpful to ensure the rapid transmission of data.

Wherein the food material processing and/or weighing task is allocated by the first mobile device according to the target recipe.

Optionally, before the receiving of the food material processing and/or weighing task allocated by the first mobile device to the second mobile device, the method further includes:

receiving a first cooperation request sent by a first mobile device;

sending a first collaboration response to the first mobile device.

Wherein the first collaboration request is to request collaboration to complete the same food order;

wherein the first cooperation response is feedback to the first cooperation request based on a current state of the second mobile device and/or an appliance device paired with the second mobile device.

The first cooperation response is divided into two modes of cooperation and non-cooperation.

Wherein the second mobile device in step 301 is the mobile device that agrees to assist in completing the preparation of the food to be prepared.

Step 302: and the second mobile equipment acquires data and/or weighing data which are used for representing food material processing conditions and are sent by the household appliance equipment paired with the second mobile equipment.

In a specific embodiment, the household appliance paired with the second mobile device sends data for characterizing food material processing conditions and/or weighing data to the second mobile device through a first communication mode.

The household appliance has a weighing function and also has a function of processing food materials, such as cutting, cleaning, heating, cooling and the like.

Step 303: and the second mobile equipment locally outputs the data and/or the weighing data of the food material processing condition and sends the data and/or the weighing data of the food material processing condition to the first mobile equipment.

In a specific embodiment, the second mobile device sends data and/or weighing data for characterizing the food material processing condition of the second mobile device to the first mobile device through a second communication mode.

Therefore, the collaborator corresponding to the second mobile device can know information such as tasks required to be executed, the weighed weight when the food materials are weighed, the task execution condition and the like through the second mobile device.

Here, the second mobile device transmits data on the processing condition of the food material and/or weighing data to the first mobile device, and can provide calculation data for the first mobile device to calculate the preparation progress of the food to be prepared.

Further, the method further comprises:

and determining and outputting the task execution progress of each household appliance device paired with the second mobile device.

In practical applications, one or more home devices may be paired with the second mobile device.

Further, the method further comprises:

receiving and displaying data representing the food material processing condition of the first mobile equipment, weighing data and/or the making progress of food to be made, which are sent by the first mobile equipment; and/or

And receiving and displaying data and/or weighing data which are sent by other second mobile equipment and represent the food material processing conditions of the other second mobile equipment.

In this way, for each second mobile device, in addition to the data and/or weighing data of the food material processing condition transmitted by the home appliance device paired with the second mobile device, data and/or weighing data representing the food material processing condition of other second mobile devices can be displayed, so that each collaborator is helped to know the task execution condition of other collaborators. Each second mobile device can display data and weighing data representing the food material processing condition of the first mobile device, and each collaborator is helped to know the condition of the task executed by the initiator; each second mobile device can display the preparation progress of the food to be prepared sent by the first mobile device, and each collaborator is helped to know the preparation progress of the food to be prepared.

By adopting the technical scheme of the embodiment of the invention, each user acquires the distributed food material processing and/or weighing task through the second mobile equipment, the time for each user to acquire the subtask is shortened, and the subtask can be more quickly put into the activity of executing the subtask.

EXAMPLE III

Fig. 4 is a schematic view of an implementation process for completing a same food order by multiple persons in cooperation according to an embodiment of the present invention, and as shown in fig. 4, the process mainly includes the following steps:

step 401: the first mobile device receives an operation of opening a first application by an initiator.

Here, the first application can provide a recipe, and can perform task allocation such as a food material processing task, a weighing task, and the like. The first application can also receive and display data and/or weighing data used for representing food material processing conditions of household appliances paired with the first mobile device, and the first application can also receive and display data and/or weighing data used for representing food material processing conditions of the second mobile device.

The first mobile device is installed with a first application, and the first application may be an application carried by the first mobile device, or an application downloaded from an application store.

Step 402: determining a target recipe by a first application on first mobile equipment according to the selection operation of an initiator; and determining the target recipe as cooperative production according to the operation mode selected by the initiator.

Step 403: and the first application on the first mobile equipment determines a second mobile equipment corresponding to the collaborator according to the collaborator selected by the initiator and informs the first mobile equipment of establishing communication connection with the second mobile equipment.

That is, the initiator selects the recipe to be made, then selects the making mode to be collaborative making, and selects the number of collaborative making persons, wherein the number of collaborative making persons may or may not include the initiator, and whether the initiator is included or not may be selected and set by the initiator; when the initiator selects the collaborators, the collaborators can be directly pulled to the same collaborative production group, or a link is sent to the collaborators so that the collaborators join the same collaborative production group by clicking the link, or a two-dimensional code is sent to the collaborators so that the collaborators join the same collaborative production group by scanning the code, and finally tasks are distributed.

In particular, the assignment may be customized by the initiator or automatically by the first application when assigning the task.

Further, custom assignment of tasks may customize assignment of certain tasks to particular collaborators.

Step 404: and the first application on the first mobile equipment distributes tasks according to the number of the collaborators and respectively sends the distributed tasks to the second mobile equipment of each collaborator.

Step 405: and after receiving the respective distributed tasks, the second mobile equipment is connected with the matched household appliances and starts the distributed recipe tasks, and the household appliances start to process and/or weigh food materials.

Preferably, the home devices to which the second mobile devices of the collaborators are connected are independent home devices.

In particular, the home devices to which the second mobile devices of the collaborators are connected may be the same home device, which will then perform the tasks initiated by the different second mobile devices in sequence.

Step 406: and displaying the food material processing and/or weighing conditions of the collaborators on the second mobile device in real time.

Here, the first application is also installed on the second mobile device, and the second mobile device displays the recipe task assigned to the second mobile device.

Specifically, according to the recipe task, when the related steps of weighing the food materials are achieved, the weighing interface is called out by the first application, the household appliance transmits the real-time weight information to the second mobile device through the communication module, and the real-time food material weight information is displayed by the first application.

Specifically, each time the second mobile device detects that a collaborator completes a certain step in the recipe task, it records that the step is completed and displays the next task to be completed.

Step 407: and displaying the food material processing and/or weighing conditions of the collaborators on the first mobile device in real time.

Step 408: and after all the tasks of the household appliances are completed, the first application on the first mobile device prompts that the food preparation is completed.

When the user is baking the food material more complicatedly, because the process of preparation is complicated, the preparation time is long, often wastes time and energy when making by single user, and often a flow makes mistakes, and preceding flow will be run again, both wasted time, also wasted edible material, simultaneously one person long-time process of preparation is also relatively tedious. By adopting the technical scheme of the invention, the food material processing and weighing conditions of the household appliance matched with the initiator or the collaborator are displayed in real time through the mobile device. Distributing the more complex recipes to several collaborators, each user being responsible for a part; when a certain user is in wrong weighing, only the food materials responsible for the user need to be made again, so that the waste of the food materials is reduced; in addition, the food material making is divided into several user making, so that the working intensity of a single user is reduced, and the fun of cooperatively completing food is increased.

Example four

An embodiment of the present invention provides a control apparatus, and fig. 5 is a schematic structural diagram of a composition of the control apparatus provided in the embodiment of the present invention, where the control apparatus is applied to a first mobile device, and as shown in fig. 5, the control apparatus includes:

a first networking module 51, configured to communicate with a home appliance through a first communication mode;

a first processing module 52 for determining N second mobile devices cooperating with the first mobile device; wherein N is a positive integer greater than or equal to 1; determining a target recipe according to the food to be made, and distributing food material processing and/or weighing tasks in the target recipe for the N second mobile devices;

the first transceiver module 53 is configured to send food material processing and/or weighing tasks corresponding to the respective second mobile devices to the N second mobile devices respectively; receiving data and/or weighing data which are sent by the N second mobile devices and used for representing food material processing conditions;

a first output module 54, configured to output the data for characterizing food material processing conditions and/or the weighing data.

The first mobile equipment and the second mobile equipment are communicated in a second communication mode; and the second mobile equipment is communicated with the household appliance equipment in a first communication mode.

Further, the first processing module 52 is further configured to analyze the data and/or the weight data, which are sent by the N second mobile devices and used for characterizing the food material processing condition; determining the task execution progress of each second mobile device and/or the preparation progress of the food to be prepared according to the analysis result; the first output module 54 is further configured to locally output the task execution progress of each second mobile device and/or the preparation progress of the food to be prepared.

Further, the first transceiver module 53 is further configured to send the task execution progress of each second mobile device and/or the preparation progress of the food to be prepared to the N second mobile devices.

Further, the first networking module 51 is further configured to receive data of food material processing conditions or weighing data returned by the home appliance after the first mobile device establishes a communication connection with the home appliance paired with the first mobile device; the first output module 54 is further configured to output the data for characterizing the food material processing condition and/or the weighing data; the first transceiver module 53 is further configured to send data and/or weighing data representing a food material processing condition of the first mobile device to the N second mobile devices.

Illustratively, the first networking module 51 may be implemented by a bluetooth module, a WIFI module, an infrared module, a mobile data module, or the like.

Illustratively, the first transceiver module 53 may be implemented by a transceiver.

Those skilled in the art will understand that the functions of the modules in the control apparatus of the present embodiment can be understood by referring to the related description of the control method applied to the first mobile device side.

In practical applications, the specific structures of the first processing module 52 and the first output module 54 may correspond to a processor. The specific structure of the processor may be a Central Processing Unit (CPU), a Micro Controller Unit (MCU), a Digital Signal Processor (DSP), a Programmable Logic Controller (PLC), or other electronic components or a collection of electronic components having a Processing function. The processor includes executable codes, the executable codes are stored in a storage medium, the processor can be connected with the storage medium through a communication interface such as a bus, and when the corresponding functions of specific units are executed, the executable codes are read from the storage medium and executed. The portion of the storage medium used to store the executable code is preferably a non-transitory storage medium. Wherein the executable code is used for executing the control method of the above embodiment applied to the first mobile equipment side.

The household appliance has a weighing function and can be realized by a weighing sensor.

The control device can divide the target recipe into a plurality of subtasks, and enables the N second mobile devices to respectively display the subtasks corresponding to the N second mobile devices, so that the user corresponding to each second mobile device can know the subtasks which the user should do in the first time, the time required by each user to acquire the subtasks is shortened, the user can quickly enter the activity of executing the subtasks, the cooperation efficiency among the users is improved, the fun of completing the same food through multi-user cooperation is increased, and the work efficiency of completing the same food through multi-user cooperation is improved.

EXAMPLE five

An embodiment of the present invention provides a control apparatus, and fig. 6 is a schematic structural diagram of a composition of the control apparatus provided in the embodiment of the present invention, and is applied to a second mobile device, as shown in fig. 6, the control apparatus includes:

the second networking module 61 is used for communicating with the household appliance through a first communication mode;

a second transceiver module 62, configured to receive a food material processing and/or weighing task allocated by the first mobile device to the second mobile device;

a second processing module 63, configured to obtain data and/or weighing data, which are sent by the household appliance device paired with the second mobile device and used for characterizing food material processing conditions;

a second output module 64, configured to locally output data of the food material processing condition and/or weighing data;

the second transceiver module 62 is further configured to send the data of the food material processing condition and/or the weighing data to the first mobile device.

Further, the second processing module 63 is further configured to determine a task execution progress of each home device paired with the second mobile device; the second output module 64 is further configured to output a task execution progress of each home device paired with the second mobile device.

Further, the second transceiver module 62 is further configured to receive data and/or weighing data representing a food material processing condition of the first mobile device and/or a preparation progress of a food to be prepared, which are sent by the first mobile device; the second output module 64 is further configured to display data representing a processing condition of the food material of the first mobile device and/or weighing data and/or a preparation progress of the food to be prepared.

Further, the second transceiver module 62 is further configured to receive data and/or weighing data, which are sent by other second mobile devices and represent food material processing conditions of the other second mobile devices; the second output module 64 is further configured to display data and/or weighing data representing the processing conditions of the other second mobile device food materials.

Illustratively, the second networking module 61 may be implemented by a bluetooth module, a WIFI module, an infrared module, a mobile data module, or the like.

Illustratively, the second transceiver module 62 may be implemented by a transceiver.

Those skilled in the art will understand that the functions of the modules in the control apparatus of the present embodiment can be understood by referring to the related description of the control method applied to the second mobile device side.

In practical applications, the specific structures of the second processing module 63 and the second output module 64 may correspond to a processor. The specific structure of the processor can be an electronic component or a collection of electronic components with processing functions, such as a CPU, an MCU, a DSP or a PLC. The processor includes executable codes, the executable codes are stored in a storage medium, the processor can be connected with the storage medium through a communication interface such as a bus, and when the corresponding functions of specific units are executed, the executable codes are read from the storage medium and executed. The portion of the storage medium used to store the executable code is preferably a non-transitory storage medium. Wherein the executable code is configured to perform the control method according to the above-mentioned embodiment applied to the second mobile device side.

The household appliance has a weighing function and a food material processing function.

The control device of the embodiment can enable each user to acquire the distributed food material processing and/or weighing tasks through the second mobile device, so that the time required by each user to acquire the subtasks is shortened, the user can quickly enter the activity of executing the subtasks, and when each user executes the food material processing or weighing tasks through the household appliance device paired with the second mobile device, the second mobile device displays the food material processing condition and/or weighing condition in real time, and the multi-user cooperation is facilitated to complete the manufacture of the same food.

EXAMPLE six

An embodiment of the present invention provides a control system, fig. 7 is a schematic composition diagram of the control system provided in the embodiment of the present invention, and as shown in fig. 7, the control system includes: the home appliance device comprises a first mobile device, N second mobile devices, a home appliance device paired with the first mobile device, and a home appliance device paired with the second mobile device; wherein the content of the first and second substances,

the first mobile equipment is used for determining a target recipe according to food to be made and distributing food material processing and/or weighing tasks in the target recipe to the N second mobile equipment; respectively sending food material processing and/or weighing tasks corresponding to the corresponding second mobile devices to the N second mobile devices; receiving data and/or weighing data which are used for representing food material processing conditions and are sent by the N second mobile devices, and outputting the data and/or the weighing data which are used for representing the food material processing conditions;

the second mobile equipment is used for receiving food material processing and/or weighing tasks distributed to the second mobile equipment by the first mobile equipment; acquiring data and/or weighing data which are sent by home appliances matched with the home appliances and used for representing food material processing conditions; and sending the data of the food material processing condition and/or the weighing data to the first mobile device.

And the household appliance device is paired with the first mobile device and is used for sending the data of the food material processing condition or the weighing data to the first mobile device.

And the household appliance equipment paired with the second mobile equipment is used for sending the data of the food material processing condition or the weighing data to the second mobile equipment paired with the household appliance equipment.

The first mobile device is further to: analyzing the data and/or weighing data which are sent by the N second mobile devices and used for representing the food material processing condition; determining the task execution progress of each second mobile device and/or the preparation progress of the food to be prepared according to the analysis result; and locally outputting the task execution progress of each second mobile device and/or the preparation progress of the food to be prepared, and sending the task execution progress of each second mobile device and/or the preparation progress of the food to be prepared to the N second mobile devices.

The control system can enable a plurality of users to simultaneously use a plurality of household appliances to collaboratively complete food production, and if food materials are cooperatively weighed, the collaboration efficiency among the users is improved, the fun of completing the same food by the cooperation of the users is increased, and the work efficiency of completing the same food by the cooperation of the users is improved.

In the several embodiments provided in the present application, it should be understood that the disclosed apparatus and method may be implemented in other ways. The above-described device embodiments are merely illustrative, for example, the division of the unit is only a logical functional division, and there may be other division ways in actual implementation, such as: multiple units or components may be combined, or may be integrated into another system, or some features may be omitted, or not implemented. In addition, the coupling, direct coupling or communication connection between the components shown or discussed may be through some interfaces, and the indirect coupling or communication connection between the devices or units may be electrical, mechanical or other forms.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units; can be located in one place or distributed on a plurality of network units; some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, all the functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may be separately regarded as one unit, or two or more units may be integrated into one unit; the integrated unit can be realized in a form of hardware, or in a form of hardware plus a software functional unit.

Those of ordinary skill in the art will understand that: all or part of the steps for realizing the method embodiments can be completed by hardware related to program instructions, the program can be stored in a computer readable storage medium, and the program executes the steps comprising the method embodiments when executed; and the aforementioned storage medium includes: a mobile storage device, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

Alternatively, the integrated unit of the present invention may be stored in a computer-readable storage medium if it is implemented in the form of a software functional module and sold or used as a separate product. Based on such understanding, the technical solutions of the embodiments of the present invention may be essentially implemented or a part contributing to the prior art may be embodied in the form of a software product, which is stored in a storage medium and includes several instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the methods described in the embodiments of the present invention. And the aforementioned storage medium includes: a removable storage device, a ROM, a RAM, a magnetic or optical disk, or various other media that can store program code.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (10)

1. A control method is applied to a first mobile device, and is characterized in that the first mobile device can communicate with an electric appliance device through a first communication mode, and the method further comprises the following steps:

determining N second mobile devices cooperating with the first mobile device; wherein N is a positive integer greater than or equal to 1;

determining a target recipe according to the food to be made, and distributing food material processing and/or weighing tasks in the target recipe for the N second mobile devices;

respectively sending food material processing and/or weighing tasks corresponding to the corresponding second mobile devices to the N second mobile devices;

receiving data and/or weighing data which are used for representing food material processing conditions and are sent by the N second mobile devices, and outputting the data and/or the weighing data which are used for representing the food material processing conditions;

the first mobile equipment and the second mobile equipment are communicated in a second communication mode; the second communication mode is different from the first communication mode;

the method further comprises the following steps:

analyzing the data and/or weighing data which are sent by the N second mobile devices and used for representing the food material processing condition;

determining the task execution progress of each second mobile device and/or the preparation progress of the food to be prepared according to the analysis result;

and locally outputting the task execution progress of each second mobile device and/or the preparation progress of the food to be prepared, and sending the task execution progress of each second mobile device and/or the preparation progress of the food to be prepared to the N second mobile devices.

2. The method of claim 1, wherein the second mobile device communicates with the home device via a first communication means.

3. The method of claim 1, further comprising:

after the first mobile device establishes a communication connection with the paired home device,

receiving food material processing condition data or weighing data returned by the household appliance;

and outputting the data used for representing the food material processing condition and/or the weighing data, and sending the data representing the food material processing condition of the first mobile equipment and/or the weighing data to the N second mobile equipment.

4. A control method is applied to a second mobile device, and is characterized in that the second mobile device can communicate with an electric appliance device through a first communication mode, and the method further comprises the following steps:

receiving a food material processing and/or weighing task distributed by a first mobile device to a second mobile device;

acquiring data and/or weighing data which are sent by the household appliance device paired with the second mobile device and used for representing food material processing conditions;

locally outputting the data and/or the weighing data of the food material processing condition, and sending the data and/or the weighing data of the food material processing condition to the first mobile equipment;

the method further comprises the following steps: and determining and outputting the task execution progress of each household appliance device paired with the second mobile device.

5. The method of claim 4, further comprising:

receiving and displaying data and/or weighing data and/or the preparation progress of food to be prepared, which are sent by first mobile equipment and represent the food material processing condition of the first mobile equipment; and/or

And receiving and displaying data and/or weighing data which are sent by other second mobile equipment and represent the food material processing conditions of the other second mobile equipment.

6. A control apparatus applied to a first mobile device, the apparatus comprising:

the first networking module is used for communicating with the household appliance in a first communication mode;

a first processing module to determine N second mobile devices cooperating with the first mobile device; wherein N is a positive integer greater than or equal to 1; determining a target recipe according to the food to be made, and distributing food material processing and/or weighing tasks in the target recipe for the N second mobile devices;

the first transceiver module is used for respectively transmitting food material processing and/or weighing tasks corresponding to the corresponding second mobile devices to the N second mobile devices; receiving data and/or weighing data which are sent by the N second mobile devices and used for representing food material processing conditions;

the first output module is used for outputting the data for representing the food material processing condition and/or the weighing data;

the first mobile equipment and the second mobile equipment are communicated in a second communication mode; the second communication mode is different from the first communication mode;

the first processing module is further configured to analyze data and/or weighing data, which are sent by the N second mobile devices and used for characterizing food material processing conditions; determining the task execution progress of each second mobile device and/or the preparation progress of the food to be prepared according to the analysis result;

the first output module is also used for locally outputting the task execution progress of each second mobile device and/or the preparation progress of the food to be prepared,

the first transceiver module is further configured to send the task execution progress of each second mobile device and/or the preparation progress of the food to be prepared to the N second mobile devices.

7. The apparatus of claim 6, wherein the second mobile device communicates with the home device via the first communication means.

8. The apparatus of claim 6,

the first networking module is further used for receiving food material processing condition data or weighing data returned by the household appliance after the first mobile device and the household appliance matched with the first mobile device establish communication connection;

the first output module is further used for outputting the data for representing the food material processing condition and/or the weighing data;

the first transceiver module is further configured to send data and/or weighing data representing a food material processing condition of the first mobile device to the N second mobile devices.

9. A control apparatus applied to a second mobile device, the apparatus comprising:

the second networking module is used for communicating with the household appliance through a first communication mode;

the second transceiver module is used for receiving food material processing and/or weighing tasks distributed to the second mobile equipment by the first mobile equipment;

the second processing module is used for acquiring data and/or weighing data which are sent by the household appliance device paired with the second mobile device and used for representing food material processing conditions;

the second output module is used for locally outputting the data of the food material processing condition and/or the weighing data;

the second transceiver module is further configured to send the data of the food material processing condition and/or the weighing data to the first mobile device;

the second processing module is further configured to determine a task execution progress of each home appliance device paired with the second mobile device;

the second output module is further configured to output a task execution progress of each home appliance device paired with the second mobile device.

10. The apparatus according to claim 9, wherein the second transceiver module is further configured to receive data and/or weighing data representing the processing condition of the food material of the first mobile device and/or a preparation progress of the food to be prepared, which are sent by the first mobile device; the second output module is further used for displaying data representing the food material processing condition of the first mobile equipment and/or weighing data and/or the making progress of food to be made; and/or

The second transceiver module is further configured to receive data and/or weighing data, which are sent by other second mobile devices and represent food material processing conditions of the other second mobile devices; and the second output module is also used for displaying data representing the food material processing condition of the other second mobile equipment and/or weighing data.

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