CN111090243A - Method for realizing intelligent interconnection of kitchen appliances - Google Patents

Abstract

The invention relates to a method for realizing intelligent interconnection of kitchen appliances, which is used for n kitchen appliances with man-machine interaction screens and is characterized in that: arranging an edge computing device with a human-computer interaction screen, wherein n kitchen electrical devices with the human-computer interaction screen are connected to a wifi network or a Bluetooth network created by the edge computing device, and the edge computing device B0 can check the working states of the n kitchen electrical devices at any time; any one kitchen electrical equipment Bi in the n kitchen electrical equipment has a screen-crossing mode, and the kitchen electrical equipment Bi checks the working state of other kitchen electrical equipment at any time or controls other kitchen electrical equipment through the edge computing equipment B0 in the screen-crossing mode; or the system is directly communicated with other kitchen electric equipment to acquire the working state of the other kitchen electric equipment or control the other kitchen electric equipment. Compared with the prior art, when a plurality of kitchen appliances work simultaneously, a user can freely select the kitchen electric equipment closest to the user to check the working states of other kitchen electric equipment.

Description

Method for realizing intelligent interconnection of kitchen appliances

Technical Field

The invention relates to a method for realizing intelligent interconnection of kitchen appliances.

Background

Modern kitchen appliances are more and more in types, such as a gas stove, a range hood, a microwave oven, an oven, a steam box, a dish washing machine, a disinfection cabinet and the like, when multiple devices work simultaneously, people often need to walk to each appliance to check the cooking state of each appliance or control each appliance, sometimes the people need to be connected without time, a plurality of devices cannot be watched simultaneously, especially, the people are easy to be in a hurry for a new hand, the busy state is caused to make mistakes, and the use experience of the kitchen devices is influenced (the problem is solved for the device end, and the APP end of the mobile phone is not aimed at).

At present, the cooking state query and the equipment control among multiple equipment have the following schemes:

the first, by the user's own ambulation;

secondly, remote control is carried out through a mobile phone APP;

thirdly, controlling through fixed central control equipment;

fourthly, control is carried out through a remote controller.

The first solution has the disadvantages that: the use is inconvenient, the operation efficiency is low, and the use experience of the kitchen appliance is poor; the system has poor robustness, and the equipment cannot be operated when a screen fails; the equipment reusability is low, and a single screen is only used for the equipment and cannot be used by other equipment; effective interaction is not formed between the devices, and push information is inconvenient to view;

the second solution has the disadvantages that: the mobile phone is inconvenient to take and place in a greasy environment in a kitchen, the screen is easy to be polluted, and the cleaning is troublesome;

the third solution has the disadvantages that: the central control equipment is not movable, and the user can operate only by walking in front of the central control plane, so that the degree of freedom is not high;

the fourth scheme has the disadvantages that: similar to the control by using a mobile phone, the device is inconvenient to take and place, easy to pollute, generally has no screen, low operation freedom, no real-time feedback and difficult to upgrade.

Disclosure of Invention

The invention aims to solve the technical problem of providing a method for realizing intelligent interconnection of kitchen appliances, which is convenient to control, aiming at the prior art.

The technical scheme adopted by the invention for solving the technical problems is as follows: a method for realizing intelligent interconnection of kitchen appliances is used for n kitchen electric devices with man-machine interaction screens, and the n kitchen electric devices with the man-machine interaction screens are marked as B1, B2,.. Bn, and is characterized in that: setting an edge computing device with a human-computer interaction screen, marking the edge computing device as B0, connecting n kitchen electrical devices with the human-computer interaction screen under a wifi network or a Bluetooth network established by the edge computing device, and accessing the edge computing device B0 into an external network through a wire or a wireless way;

n virtual sub-machines VB1, VB2,.. VBn are operated in the edge computing device B0 simultaneously, n virtual sub-machines VB1 and VB2, and.. VBn corresponds to n kitchen electric devices B1, B2,.. Bn one by one, state information required in the operation process of the n virtual sub-machines is kept synchronous with the n kitchen electric devices B1, B2,.. Bn through a network, so that the edge computing device B0 can check the working states of the n kitchen electric devices B1, B2,.. Bn at any time; the edge computing device B0 inputs a control instruction to the n virtual sub-machines VB1 and VB 2.. VBn, and sends the corresponding control instruction to the corresponding kitchen electrical devices B1, B2,. Bn through the network, so as to control the n kitchen electrical devices B1, B2,. Bn;

any one of the n kitchen electrical devices B1, B2,. Bn has a screen-crossing mode, i is 1, 2, … … n, and the kitchen electrical device Bi checks the working state of other kitchen electrical devices at any time or controls other kitchen electrical devices through the edge computing device B0 in the screen-crossing mode; or the system is directly communicated with other kitchen electric equipment to acquire the working state of the other kitchen electric equipment or control the other kitchen electric equipment.

As an improvement, when the ith kitchen electrical equipment Bi checks the operating state of the jth kitchen electrical equipment Bj, or controls the jth kitchen electrical equipment Bj, i is 1, 2, … … n, j is 1, 2, … … n, i is not equal to j, a sub-control interface which is the same as the control interface of the jth kitchen electrical equipment Bj is generated on the ith kitchen electrical equipment, the real-time state information of the jth kitchen electrical equipment Bj is acquired and displayed through a human-computer interaction screen of the ith kitchen electrical equipment, and then the user acquires the real-time state information of the jth kitchen electrical equipment Bj by checking the sub-control interface related to the jth kitchen electrical equipment on the human-computer interaction screen of the ith kitchen electrical equipment; or the user inputs a control instruction on the sub-control interface of the jth kitchen electrical equipment, and then the control instruction is sent to the jth kitchen electrical equipment in real time, so that the jth kitchen electrical equipment is controlled.

The improvement is that the n kitchen electrical equipment B1, B2, etc. Bn are stored with common materials and respective special materials required for displaying the control interface, and the edge computing equipment B0 is stored with the common materials and professional materials of all the n kitchen electrical equipment;

after the ith kitchen electrical device Bi starts the screen-crossing mode, if the ith kitchen electrical device Bi needs to check the working state of the jth kitchen electrical device Bj through the edge computing device B0, or control the jth kitchen electrical device Bj through the edge computing device B0, i is 1, 2, … … n, j is 1, 2, … … n, i is not equal to j; the user selects an icon of a j-th kitchen electrical device to be controlled on a control interface of the i-th kitchen electrical device Bi, the i-th kitchen electrical device Bi initiates an online request for controlling the j-th kitchen electrical device to an edge computing device B0, and the edge computing device B0 transmits professional materials required by the control interface of the j-th virtual sub-machine VBj to the i-th kitchen electrical device Bi; and the ith kitchen electrical equipment Bi establishes a control interface by utilizing the public materials stored in the local cache and the professional materials required by the control interface of the jth virtual sub-machine VBj transmitted by the edge computing equipment B0, so as to realize the display of the control interface of the jth kitchen electrical equipment Bj.

The improvement is carried out again, when the ith kitchen electrical equipment Bi starts the screen-crossing mode, the control of the jth kitchen electrical equipment Bj is divided into three types of setting, browsing and submitting;

when the ith kitchen electrical equipment Bi carries out 'setting' control on the jth kitchen electrical equipment Bj:

a user inputs a control instruction of a 'setting' type on a sub-control interface which is created on a human-computer interaction screen of the ith kitchen electrical equipment Bi and is related to the jth kitchen electrical equipment Bj, the ith kitchen electrical equipment Bi directly sends the control instruction of the 'setting' type to the jth kitchen electrical equipment Bj, the edge computing equipment B0 is not required to be informed, the control interface of the jth virtual sub-machine VBj is not required to be modified, the jth kitchen electrical equipment Bj is not required to respond to the control instruction of the 'setting' type, and the working state of the jth kitchen electrical equipment Bj is not changed;

when the ith kitchen electrical equipment Bi carries out 'browse' control on the jth kitchen electrical equipment Bj:

a user inputs a control instruction of a 'browse' type on a sub-control interface which is created on a human-computer interaction screen of the ith kitchen electrical equipment Bi and is related to the jth kitchen electrical equipment, the ith kitchen electrical equipment Bi sends the control instruction of the 'browse' type to the jth virtual sub-machine VBj of the edge computing equipment B0, the jth virtual sub-machine VBj of the edge computing equipment B0 switches the control interface according to the control instruction of the 'browse' type and constructs professional materials required by a new control interface, and the professional materials are sent to the ith kitchen electrical equipment Bi, so that the ith kitchen electrical equipment Bi generates the new control interface on the sub-control interface, the working state of the jth kitchen electrical equipment Bj is not changed in the process, and the control interface of the jth kitchen electrical equipment Bj is not changed;

when the ith kitchen electrical equipment Bi performs 'submit' control on the jth kitchen electrical equipment Bj:

a user inputs a control instruction of a 'submitting' class on a sub-control interface which is created on a human-computer interaction screen of the ith kitchen electrical equipment Bi and is related to the jth kitchen electrical equipment, the ith kitchen electrical equipment Bi sends the control instruction of the 'submitting' class to the jth virtual sub-machine VBj of the edge computing equipment B0, and the edge computing equipment B0 sends the control instruction of the 'submitting' class to the jth kitchen electrical equipment Bj; when the working state of the jth kitchen electrical device Bj changes according to the control instruction of the "submit" class, the new working state is fed back to the jth virtual sub-machine VBj of the edge computing device B0, and the jth virtual sub-machine VBj of the edge computing device B0 feeds back the new working state of the jth kitchen electrical device Bj to the sub-control interface of the jth kitchen electrical device Bi.

Then, the improvement is that the n kitchen electrical devices B1, B2, and so on are all provided with human body induction sensors, when the working abnormality or working state of the jth kitchen electrical device Bj changes, the human body induction sensor on the jth kitchen electrical device Bj does not sense a human body signal, but the human body induction sensor on the ith kitchen electrical device Bi senses the human body signal, the jth kitchen electrical device Bj sends the working abnormality signal or latest working state information thereof to the jth virtual sub-machine VBi of the edge computing device B0, and the jth virtual sub-machine VBi of the edge computing device B0 sends the working abnormality signal or latest working state information thereof to a sub-control interface of the jth kitchen electrical device Bi on the ith kitchen electrical device Bi for pushing and displaying

Compared with the prior art, the invention has the advantages that: when a plurality of kitchen appliances work simultaneously, a user can freely select the kitchen electric equipment closest to the user to check the working states of other kitchen electric equipment and can also control other kitchen electric equipment; when the man-machine interaction screen of the kitchen equipment has problems, the man-machine interaction screen of other kitchen electric equipment can be used for operation before equipment maintenance, cooking is prevented from being influenced, and the robustness of a kitchen system is improved; in the improvement scheme, the screen-crossing pushing of the working state of the kitchen electrical equipment can be realized, for example, when the oven works abnormally or cooking is finished and people are not in front of the oven, if the human body induction sensor on the range hood judges that the user is in front of the range hood, the message pushing is carried out through the human-computer interaction screen of the range hood.

Drawings

Fig. 1 is a system block diagram for realizing intelligent interconnection of kitchen appliances in the embodiment of the invention.

Fig. 2 is an information interaction diagram when the setting type control instruction is implemented in the embodiment of the present invention.

Fig. 3 is an information interaction diagram when a "browse" type control instruction is implemented in the embodiment of the present invention.

Fig. 4 is an information interaction diagram when a "commit" type control instruction is implemented in the embodiment of the present invention.

Detailed Description

The invention is described in further detail below with reference to the accompanying examples.

The invention provides a method for realizing intelligent interconnection of kitchen appliances, which is used for comprising n kitchen electrical equipment with a man-machine interaction screen, wherein the n kitchen electrical equipment with the man-machine interaction screen are marked as B1, B2,. till B, an edge computing device with the man-machine interaction screen is arranged, the edge computing device is marked as B0, the n kitchen electrical equipment with the man-machine interaction screen are all connected to a wifi network or a Bluetooth network established by the edge computing device, and the edge computing device B0 is connected to an external network through wires or wirelessly and is shown in figure 1. N virtual sub-machines VB1, VB2,.. VBn are operated in the edge computing device B0 simultaneously, n virtual sub-machines VB1 and VB2, and.. VBn corresponds to n kitchen electric devices B1, B2,.. Bn one by one, state information required in the operation process of the n virtual sub-machines is kept synchronous with the n kitchen electric devices B1, B2,.. Bn through a network, so that the edge computing device B0 can check the working states of the n kitchen electric devices B1, B2,.. Bn at any time; the edge computing device B0 inputs a control instruction to the n virtual sub-machines VB1 and VB 2.. VBn, and sends the corresponding control instruction to the corresponding kitchen electrical devices B1, B2,. Bn through the network, so as to control the n kitchen electrical devices B1, B2,. Bn;

any one of the n kitchen electrical devices B1, B2,. Bn has a screen-crossing mode, i is 1, 2, … … n, and the kitchen electrical device Bi checks the working state of other kitchen electrical devices at any time or controls other kitchen electrical devices through the edge computing device B0 in the screen-crossing mode; or the system is directly communicated with other kitchen electric equipment to acquire the working state of the other kitchen electric equipment or control the other kitchen electric equipment.

Specifically, when the ith kitchen electrical device Bi needs to check the working state of the jth kitchen electrical device Bj, or control the jth kitchen electrical device Bj, i is 1, 2, … … n, j is 1, 2, … … n, i is not j, firstly, a sub-control interface which is the same as the control interface of the jth kitchen electrical device Bj is generated on the ith kitchen electrical device, the real-time state information of the jth kitchen electrical device Bj is acquired and displayed through a human-computer interaction screen of the ith kitchen electrical device, and then, a user checks the sub-control interface of the jth kitchen electrical device on the human-computer interaction screen of the ith kitchen electrical device, so that the real-time state information of the jth kitchen electrical device Bj is acquired; or the user inputs a control instruction on the sub-control interface of the jth kitchen electrical equipment, and then the control instruction is sent to the jth kitchen electrical equipment in real time, so that the jth kitchen electrical equipment is controlled.

In this embodiment, n kitchen electrical devices B1, B2,. Bn store therein common materials and respective dedicated materials required for displaying control interfaces thereof, and the edge computing device B0 stores therein common materials and professional materials of all n kitchen electrical devices;

after the ith kitchen electrical device Bi starts the screen-crossing mode, if the ith kitchen electrical device Bi needs to check the working state of the jth kitchen electrical device Bj through the edge computing device B0, or control the jth kitchen electrical device Bj through the edge computing device B0, i is 1, 2, … … n, j is 1, 2, … … n, i is not equal to j; the user selects an icon of a j-th kitchen electrical device to be controlled on a control interface of the i-th kitchen electrical device Bi, the i-th kitchen electrical device Bi initiates an online request for controlling the j-th kitchen electrical device to an edge computing device B0, and the edge computing device B0 transmits professional materials required by the control interface of the j-th virtual sub-machine VBj to the i-th kitchen electrical device Bi; and the ith kitchen electrical equipment Bi establishes a control interface by utilizing the public materials stored in the local cache and the professional materials required by the control interface of the jth virtual sub-machine VBj transmitted by the edge computing equipment B0, so as to realize the display of the control interface of the jth kitchen electrical equipment Bj.

After the ith kitchen electrical equipment Bi starts the screen crossing mode, the control on the jth kitchen electrical equipment Bj is divided into three types of setting, browsing and submitting;

when the ith kitchen electrical equipment Bi carries out 'setting' control on the jth kitchen electrical equipment Bj:

a user inputs a control instruction of a 'setting' type on a sub-control interface which is created on a human-computer interaction screen of the ith kitchen electrical equipment Bi and is related to the jth kitchen electrical equipment Bj, the ith kitchen electrical equipment Bi directly sends the control instruction of the 'setting' type to the jth kitchen electrical equipment Bj, the edge computing equipment B0 is not required to be informed, the control interface of the jth virtual sub-machine VBj is not required to be modified, the jth kitchen electrical equipment Bj is not required to respond to the control instruction of the 'setting' type, and the working state of the jth kitchen electrical equipment Bj is not changed;

for example, the cooking time, temperature and cooking mode are set on the ith kitchen electrical appliance Bi for the jth kitchen electrical appliance, when the user calls up the control interface of the jth kitchen electrical appliance Bj on the ith kitchen electrical appliance Bi, the ith kitchen electrical appliance Bi creates the configuration file FBj of the jth kitchen electrical appliance Bj, and when the user modifies the operating parameters of the jth kitchen electrical appliance Bj, the modified parameter values are added to the configuration file FBj. See fig. 2.

Due to the adoption of a data caching strategy, the communication times of the jth virtual sub-machine VBj and the jth kitchen electric equipment Bj and the ith kitchen electric equipment Bi are reduced, the network load is reduced, and the response speed is accelerated.

When the ith kitchen electrical equipment Bi carries out 'browse' control on the jth kitchen electrical equipment Bj:

a user inputs a control instruction of a 'browse' type on a sub-control interface which is created on a human-computer interaction screen of the ith kitchen electrical equipment Bi and is related to the jth kitchen electrical equipment, the ith kitchen electrical equipment Bi sends the control instruction of the 'browse' type to the jth virtual sub-machine VBj of the edge computing equipment B0, the jth virtual sub-machine VBj of the edge computing equipment B0 switches the control interface according to the control instruction of the 'browse' type and constructs professional materials required by a new control interface, and the professional materials are sent to the ith kitchen electrical equipment Bi, so that the ith kitchen electrical equipment Bi generates the new control interface on the sub-control interface, the working state of the jth kitchen electrical equipment Bj is not changed in the process, and the control interface of the jth kitchen electrical equipment Bj is not changed;

for example, after the ith kitchen electrical equipment Bi queries the main control interface of the jth kitchen electrical equipment Bj, the ith kitchen electrical equipment Bi wants to view the menu page of the jth kitchen electrical equipment Bj; at this time, a control instruction of "browse" type is input by the method, when a user operates and switches a page on the ith kitchen electrical equipment Bi, the ith kitchen electrical equipment Bi sends the page switching instruction to the jth virtual sub-machine VBj, the jth virtual sub-machine VBj switches a display page according to the instruction and sends materials required for constructing a new page to the ith kitchen electrical equipment Bi, in the process, the state of the jth virtual sub-machine VBj changes (displays different pages), the state of the jth kitchen electrical equipment Bj does not change, namely, the page does not need to be switched, internal configuration parameters do not need to be changed, working states do not need to be changed, such as starting to stop cooking, and the like, and the method is shown in fig. 3.

As the method uses a data synchronization strategy, the state of the jth virtual submachine VBj is synchronized to the ith kitchen electrical equipment Bi. Because the equipment state changes more smoothly, the requirements of the user on the real-time performance and the accuracy are not high, and links that the edge computing equipment B0 inquires the state of the jth kitchen electrical equipment Bj and returns the state of the jth kitchen electrical equipment Bj are reduced, the communication delay is reduced, the perception delay of the user is reduced, and the user experience is improved.

When the ith kitchen electrical equipment Bi performs 'submit' control on the jth kitchen electrical equipment Bj:

a user inputs a control instruction of a 'submitting' class on a sub-control interface which is created on a human-computer interaction screen of the ith kitchen electrical equipment Bi and is related to the jth kitchen electrical equipment, the ith kitchen electrical equipment Bi sends the control instruction of the 'submitting' class to the jth virtual sub-machine VBj of the edge computing equipment B0, and the edge computing equipment B0 sends the control instruction of the 'submitting' class to the jth kitchen electrical equipment Bj; when the working state of the jth kitchen electrical device Bj changes according to the control command of the "submit" type, the new working state is fed back to the jth virtual slave machine VBj of the edge computing device B0, and the jth virtual slave machine VBj of the edge computing device B0 feeds back the new working state of the jth kitchen electrical device Bj to the sub-control interface of the jth kitchen electrical device Bi shown in fig. 4.

The submitting control instruction can influence the working state of the controlled kitchen electrical equipment, and the controlled kitchen electrical equipment needs to immediately respond to the submitting control instruction and return an execution result; for example, when the jth kitchen electrical device Bj is heating dishes, the user sends a cooking stop instruction to the jth kitchen electrical device Bj at the ith kitchen electrical device Bi, and by the above method, the ith kitchen electrical device Bi can perform "submit" type control on the jth kitchen electrical device Bj, and the method uses a data update strategy, that is, the edge computing device B0 forwards the "submit" type control.

In addition, in the invention, the n kitchen electrical devices B1, B2,. B n are all provided with human body induction sensors, when the working abnormality or working state of the j-th kitchen electrical device Bj changes, the human body induction sensor on the j-th kitchen electrical device Bj does not sense a human body signal, but the human body induction sensor on the i-th kitchen electrical device Bi senses the human body signal, the j-th kitchen electrical device Bj sends the working abnormality signal or latest working state information thereof to the j-th virtual sub-machine VBi of the edge computing device B0, and the j-th virtual sub-machine VBi of the edge computing device B0 sends the working abnormality signal or latest working state information thereof to a sub-control interface of the j-th kitchen electrical device Bi for push display.

The method provided by the invention can check and control the state of the electric appliance through freely selecting the electric appliance by means of the interconnection technology of different devices without going to the corresponding electric appliance. For example, the range hood stands in front of an oven, and the working condition of the range hood can be taken and checked; when the touch control/display of the screen of the kitchen equipment is in a problem, the screen of other equipment can be used for operation before equipment maintenance, so that the cooking is prevented from being influenced, and the robustness of a kitchen system is improved; and the information of the equipment can be pushed across screens, for example, when the oven works abnormally or cooking is finished and a person is not in front of the oven, if the sensor on the range hood judges that the person stands in front of the range hood, the edge computing equipment pushes the information to the screen of the range hood after acquiring the information.

Claims (5)

1. A method for realizing intelligent interconnection of kitchen appliances is used for n kitchen electric devices with man-machine interaction screens, and the n kitchen electric devices with the man-machine interaction screens are marked as B1, B2,.. Bn, and is characterized in that: setting an edge computing device with a human-computer interaction screen, marking the edge computing device as B0, connecting n kitchen electrical devices with the human-computer interaction screen under a wifi network or a Bluetooth network established by the edge computing device, and accessing the edge computing device B0 into an external network through a wire or a wireless way;

n virtual sub-machines VB1, VB2,.. VBn are operated in the edge computing device B0 simultaneously, n virtual sub-machines VB1 and VB2, and.. VBn corresponds to n kitchen electric devices B1, B2,.. Bn one by one, state information required in the operation process of the n virtual sub-machines is kept synchronous with the n kitchen electric devices B1, B2,.. Bn through a network, so that the edge computing device B0 can check the working states of the n kitchen electric devices B1, B2,.. Bn at any time; the edge computing device B0 inputs a control instruction to the n virtual sub-machines VB1 and VB 2.. VBn, and sends the corresponding control instruction to the corresponding kitchen electrical devices B1, B2,. Bn through the network, so as to control the n kitchen electrical devices B1, B2,. Bn;

any one of the n kitchen electrical devices B1, B2,. Bn has a screen-crossing mode, i is 1, 2, … … n, and the kitchen electrical device Bi checks the working state of other kitchen electrical devices at any time or controls other kitchen electrical devices through the edge computing device B0 in the screen-crossing mode; or the system is directly communicated with other kitchen electric equipment to acquire the working state of the other kitchen electric equipment or control the other kitchen electric equipment.

2. The method for realizing intelligent interconnection of kitchen appliances according to claim 1, wherein the method comprises the following steps: when the ith kitchen electrical equipment Bi checks the working state of the jth kitchen electrical equipment Bj, or controls the jth kitchen electrical equipment Bj, i is 1, 2, … … n, j is 1, 2, … … n, i is not equal to j, a sub-control interface which is the same as the control interface of the jth kitchen electrical equipment Bj is generated on the ith kitchen electrical equipment, the real-time state information of the jth kitchen electrical equipment Bj is acquired and displayed through a human-computer interaction screen of the ith kitchen electrical equipment, and then a user acquires the real-time state information of the jth kitchen electrical equipment Bj by checking the sub-control interface which is related to the jth kitchen electrical equipment on the human-computer interaction screen of the ith kitchen electrical equipment; or the user inputs a control instruction on the sub-control interface of the jth kitchen electrical equipment, and then the control instruction is sent to the jth kitchen electrical equipment in real time, so that the jth kitchen electrical equipment is controlled.

3. The method for realizing intelligent interconnection of kitchen appliances according to claim 2, wherein the method comprises the following steps: the n kitchen electrical equipment B1, B2,. Bn are stored with common materials and respective special materials required for displaying the control interfaces thereof, and the edge computing equipment B0 is stored with the common materials and the professional materials of all the n kitchen electrical equipment;

after the ith kitchen electrical device Bi starts the screen-crossing mode, if the ith kitchen electrical device Bi needs to check the working state of the jth kitchen electrical device Bj through the edge computing device B0, or control the jth kitchen electrical device Bj through the edge computing device B0, i is 1, 2, … … n, j is 1, 2, … … n, i is not equal to j; the user selects an icon of a j-th kitchen electrical device to be controlled on a control interface of the i-th kitchen electrical device Bi, the i-th kitchen electrical device Bi initiates an online request for controlling the j-th kitchen electrical device to an edge computing device B0, and the edge computing device B0 transmits professional materials required by the control interface of the j-th virtual sub-machine VBj to the i-th kitchen electrical device Bi; and the ith kitchen electrical equipment Bi establishes a control interface by utilizing the public materials stored in the local cache and the professional materials required by the control interface of the jth virtual sub-machine VBj transmitted by the edge computing equipment B0, so as to realize the display of the control interface of the jth kitchen electrical equipment Bj.

4. The method for realizing intelligent interconnection of kitchen appliances according to claim 3, wherein the method comprises the following steps: after the ith kitchen electrical equipment Bi starts the screen crossing mode, the control on the jth kitchen electrical equipment Bj is divided into three types of setting, browsing and submitting;

when the ith kitchen electrical equipment Bi carries out 'setting' control on the jth kitchen electrical equipment Bj:

a user inputs a control instruction of a 'setting' type on a sub-control interface which is created on a human-computer interaction screen of the ith kitchen electrical equipment Bi and is related to the jth kitchen electrical equipment Bj, the ith kitchen electrical equipment Bi directly sends the control instruction of the 'setting' type to the jth kitchen electrical equipment Bj, the edge computing equipment B0 is not required to be informed, the control interface of the jth virtual sub-machine VBj is not required to be modified, the jth kitchen electrical equipment Bj is not required to respond to the control instruction of the 'setting' type, and the working state of the jth kitchen electrical equipment Bj is not changed;

when the ith kitchen electrical equipment Bi carries out 'browse' control on the jth kitchen electrical equipment Bj:

a user inputs a control instruction of a 'browse' type on a sub-control interface which is created on a human-computer interaction screen of the ith kitchen electrical equipment Bi and is related to the jth kitchen electrical equipment, the ith kitchen electrical equipment Bi sends the control instruction of the 'browse' type to the jth virtual sub-machine VBj of the edge computing equipment B0, the jth virtual sub-machine VBj of the edge computing equipment B0 switches the control interface according to the control instruction of the 'browse' type and constructs professional materials required by a new control interface, and the professional materials are sent to the ith kitchen electrical equipment Bi, so that the ith kitchen electrical equipment Bi generates the new control interface on the sub-control interface, the working state of the jth kitchen electrical equipment Bj is not changed in the process, and the control interface of the jth kitchen electrical equipment Bj is not changed;

when the ith kitchen electrical equipment Bi performs 'submit' control on the jth kitchen electrical equipment Bj:

a user inputs a control instruction of a 'submitting' class on a sub-control interface which is created on a human-computer interaction screen of the ith kitchen electrical equipment Bi and is related to the jth kitchen electrical equipment, the ith kitchen electrical equipment Bi sends the control instruction of the 'submitting' class to the jth virtual sub-machine VBj of the edge computing equipment B0, and the edge computing equipment B0 sends the control instruction of the 'submitting' class to the jth kitchen electrical equipment Bj; when the working state of the jth kitchen electrical device Bj changes according to the control instruction of the "submit" class, the new working state is fed back to the jth virtual sub-machine VBj of the edge computing device B0, and the jth virtual sub-machine VBj of the edge computing device B0 feeds back the new working state of the jth kitchen electrical device Bj to the sub-control interface of the jth kitchen electrical device Bi.

5. Method for realizing intelligent interconnection of kitchen appliances according to claim 1, 2, 3 or 4, characterized in that: when the working abnormality or working state of the jth kitchen electrical equipment Bj changes, the human body induction sensor on the jth kitchen electrical equipment Bj does not sense a human body signal, but the human body induction sensor on the ith kitchen electrical equipment Bi senses a human body signal, the jth kitchen electrical equipment Bj sends the working abnormality signal or latest working state information thereof to the jth virtual sub-machine VBi of the edge computing equipment B0, and the jth virtual sub-machine VBi of the edge computing equipment B0 sends the working abnormality signal or latest working state information thereof to a sub-control interface of the jth kitchen electrical equipment Bi on the ith kitchen electrical equipment Bi for push display.

Images