CN112486968A

CN112486968A - Method, device and equipment for generating electronic menu and computer readable storage medium

Info

Publication number: CN112486968A
Application number: CN202011382391.XA
Authority: CN
Inventors: 王峰
Original assignee: Zhuhai Unicook Technology Co Ltd
Current assignee: Zhuhai Unicook Technology Co Ltd
Priority date: 2020-12-01
Filing date: 2020-12-01
Publication date: 2021-03-12

Abstract

The invention discloses a method, a device and equipment for generating an electronic menu and a computer readable storage medium, and relates to the technical field of intelligent cooking. Wherein the method comprises the following steps: the method comprises the steps of obtaining a cooking operation sequence recorded by intelligent cooking equipment, judging whether a plurality of cooking operations in the cooking operation sequence meet preset conditions or not, if yes, combining the plurality of cooking operations meeting the preset conditions, and finally generating an electronic menu based on operation information after combination and preset menu data. According to the method and the device, operation steps in the electronic menu can be simplified based on the operation sequence of the cooking equipment, and the operation efficiency of the electronic menu is improved.

Description

Method, device and equipment for generating electronic menu and computer readable storage medium

Technical Field

The invention relates to the technical field of intelligent cooking, in particular to a method, a device and equipment for generating an electronic menu and a computer readable storage medium.

Background

With the continuous development of intelligent cooking technology, the intelligent cooking equipment can automatically cook according to the existing electronic menu. In the cooking process, parameters such as user taste, environment and the like may change according to different scenes, and the user can adjust cooking parameters at any time.

In the related art, in the process of cooking dishes by using a cooking device to run an electronic menu, since the cooking device is likely to be frequently operated within a certain time, if the cooking device records each of the operations as a step, redundancy exists in the created electronic menu, so that the electronic menu is complicated and difficult to execute, and the operating efficiency of the electronic menu is influenced.

Disclosure of Invention

In view of this, the present invention provides a method, an apparatus, a device and a computer readable storage medium for generating an electronic menu, and mainly aims to solve the problem that in the prior art, a cooking device records each operation record, so that redundancy exists in the created electronic menu.

According to a first aspect of the present invention, there is provided a method for generating an electronic menu, the method comprising:

acquiring a cooking operation sequence recorded by intelligent cooking equipment;

judging whether a plurality of cooking operations in the cooking operation sequence meet preset conditions or not;

if yes, merging a plurality of cooking operations meeting the preset conditions;

and generating an electronic menu based on the combined operation information and preset menu data.

Further, whether a plurality of cooking operations in the cooking operation sequence meet preset conditions or not is judged, if yes, the plurality of cooking operations meeting the preset conditions are combined, and the method specifically comprises the following steps:

judging whether the plurality of cooking operations in the cooking operation sequence are in adjacent time intervals or not by utilizing time points corresponding to the plurality of cooking operations;

if yes, merging the plurality of cooking operations in the adjacent time intervals.

Further, before the merging the cooking operations in the adjacent time intervals, the method further comprises:

detecting whether operation types corresponding to a plurality of cooking operations in adjacent time intervals are the same;

if yes, merging a plurality of cooking operations of the same operation type;

otherwise, after the plurality of cooking operations in the adjacent time intervals are split, the cooking operations are combined into the cooking operations of the same operation type in other time intervals.

Further, the determining whether the plurality of cooking operations in the cooking operation sequence meet a preset condition specifically further includes:

judging whether the plurality of cooking operations in the cooking operation sequence belong to the same operation type or not by using the operation types corresponding to the plurality of cooking operations;

if yes, merging a plurality of cooking operations meeting preset conditions, and specifically comprising the following steps:

if yes, a plurality of cooking operations of the same operation type are combined.

Further, the merging of multiple cooking operations of the same operation type specifically includes:

and setting cooking parameters of the cooking operation after the combined treatment based on the equipment type and the time point corresponding to the plurality of cooking operations of the same operation type.

Further, the setting of the cooking parameters of the cooking operation after the combination processing based on the device type and the cooking time corresponding to the plurality of cooking operations of the same operation type specifically includes:

if the plurality of cooking operations of the same operation type are cooking operations related to ingredient equipment, combining ingredient parameters corresponding to the plurality of cooking operations through superposition to serve as cooking parameters corresponding to combined cooking operations, and selecting preset cooking time from the cooking time corresponding to the plurality of cooking operations to serve as cooking time corresponding to the combined cooking operations;

if the plurality of cooking operations of the same operation type relate to cooking operations of the intelligent cooking equipment, selecting the cooking time and the cooking parameter corresponding to the last executed cooking operation from the plurality of cooking operations as the cooking time and the cooking parameter corresponding to the combined cooking operation for the plurality of cooking operations within the same preset time period.

Further, the obtaining of the cooking operation sequence recorded by the intelligent cooking device specifically includes:

acquiring an operation instruction sequence received by the intelligent cooking equipment;

adjusting instruction time recorded by a plurality of operation instructions in the operation instruction sequence based on execution modes corresponding to the operation instructions in the operation instruction sequence;

and forming a cooking operation sequence recorded by the intelligent cooking equipment by using a plurality of operation instructions in the operation instruction sequence according to the adjusted instruction time.

Further, the adjusting the instruction time recorded by the plurality of operation instructions in the operation instruction sequence based on the execution mode corresponding to the plurality of operation instructions in the operation instruction sequence specifically includes:

judging whether the execution modes corresponding to a plurality of operation instructions in the operation instruction sequence are preset execution modes or not;

if so, pre-adjusting the instruction time recorded by the operation instruction of the preset execution mode in the operation instruction sequence.

According to a second aspect of the present invention, there is provided an electronic menu generating apparatus, comprising:

the acquisition module is used for acquiring a cooking operation sequence recorded by the intelligent cooking equipment;

the judging module is used for judging whether the plurality of cooking operations in the cooking operation sequence meet preset conditions or not;

the merging module is used for merging a plurality of cooking operations meeting the preset conditions if the cooking operations meet the preset conditions;

and the generation module is used for generating the electronic menu based on the combined operation information and preset menu data.

Further, the determining module is specifically configured to determine whether the plurality of cooking operations in the cooking operation sequence are in adjacent time intervals by using time points corresponding to the plurality of cooking operations;

the merging module is specifically configured to merge a plurality of cooking operations in adjacent time intervals if yes.

Further, the apparatus further comprises:

the detection module is used for detecting whether the operation types corresponding to the plurality of cooking operations in the adjacent time intervals are the same or not before the cooking operations in the adjacent time intervals are combined;

the merging module is specifically used for merging a plurality of cooking operations of the same operation type if the cooking operation is in the same operation type;

the merging module is specifically further configured to merge the plurality of cooking operations in the adjacent time intervals into the cooking operations of the same operation type in other time intervals after splitting the plurality of cooking operations in the adjacent time intervals.

Further, the determining module is specifically configured to determine whether the plurality of cooking operations in the cooking operation sequence belong to the same operation type by using operation types corresponding to the plurality of cooking operations;

the merging module is specifically configured to merge a plurality of cooking operations of the same operation type if the operation type of the cooking operation is the same as the operation type of the cooking operation.

Further, the merging module is specifically further configured to set cooking parameters of the cooking operation after the merging processing based on the device type and the time point corresponding to the plurality of cooking operations of the same operation type.

Further, the merging module is specifically configured to merge, by superimposing, if the plurality of cooking operations of the same operation type are cooking operations involving the ingredient device, ingredient parameters corresponding to the plurality of cooking operations as cooking parameters corresponding to the cooking operations after the merging processing, and select, from the cooking times corresponding to the plurality of cooking operations, a preset cooking time as the cooking time corresponding to the cooking operations after the merging processing;

the merging module is specifically configured to select, for a plurality of cooking operations within a same preset time period, a cooking time and a cooking parameter corresponding to a last executed cooking operation from the plurality of cooking operations as a cooking time and a cooking parameter corresponding to a cooking operation after merging processing, if the plurality of cooking operations of the same operation type relate to the cooking operation of the intelligent cooking device.

Further, the obtaining module comprises:

the intelligent cooking device comprises an acquisition unit, a processing unit and a control unit, wherein the acquisition unit is used for acquiring an operation instruction sequence received by the intelligent cooking device;

the adjusting unit is used for adjusting instruction time recorded by a plurality of operation instructions in the operation instruction sequence based on execution modes corresponding to the operation instructions in the operation instruction sequence;

and the generating unit is used for forming the plurality of operation instructions in the operation instruction sequence into a cooking operation sequence recorded by the intelligent cooking equipment according to the adjusted instruction time.

Further, the adjusting unit is specifically configured to determine whether an execution mode corresponding to a plurality of operation instructions in the operation instruction sequence is a preset execution mode;

the adjusting unit is specifically configured to perform pre-adjustment on instruction time recorded by an operation instruction in a preset execution mode in the operation instruction sequence if the operation instruction is in the preset execution mode.

According to a third aspect of the present invention, there is provided an apparatus comprising a memory storing a computer program and a processor implementing the steps of the method of the first aspect when the processor executes the computer program.

According to a fourth aspect of the present invention, there is provided a readable storage medium having stored thereon a computer program which, when executed by a processor, carries out the steps of the method of the first aspect as set forth above.

By means of the technical scheme, compared with the mode that the created electronic menu is redundant due to frequent operation in the prior art, the method, the device, the equipment and the computer-readable storage medium for generating the electronic menu provided by the invention have the advantages that the cooking operation sequence recorded by the intelligent cooking equipment is obtained, whether a plurality of cooking operations in the cooking operation sequence meet the preset condition is judged, if yes, the plurality of cooking operations meeting the preset condition are combined, repeated cooking operations in the electronic menu are avoided, the resource occupation of the intelligent cooking equipment is saved, the electronic menu is generated based on the combined operation information and the preset menu data, the operation steps in the electronic menu can be simplified, and the operation efficiency of the electronic menu is improved.

The foregoing description is only an overview of the technical solutions of the present invention, and the embodiments of the present invention are described below in order to make the technical means of the present invention more clearly understood and to make the above and other objects, features, and advantages of the present invention more clearly understandable.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention. Also, like reference numerals are used to refer to like parts throughout the drawings. In the drawings:

fig. 1 shows an interaction flow diagram of an intelligent cooking device and an APP end provided by an embodiment of the invention;

fig. 2 is a schematic structural diagram illustrating an apparatus for generating an electronic menu according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram illustrating an apparatus for generating an electronic menu according to an embodiment of the present invention.

Detailed Description

Exemplary embodiments of the present invention will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the invention are shown in the drawings, it should be understood that the invention can be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art.

Before explaining the present invention in detail, a brief explanation will be given of the process of generating an electronic menu according to the present invention. The device corresponding to the generation process of the electronic menu may include a server corresponding to the intelligent cooking device and/or the intelligent terminal, where the server is not a server for data storage, but a server with a data processing function, such as data transmission, data merging, and the like, and is equivalent to a device background or a terminal background. The intelligent cooking device can store an electronic menu, on one hand, a cooking task can be executed based on cooking data in the electronic menu, on the other hand, the cooking task can be executed based on a cooking operation executed by a user, on the basis of the electronic menu or the cooking operation executed by the user, the intelligent cooking device can record a cooking operation sequence executed by the intelligent cooking device, the cooking operation sequence can be used for enabling the intelligent cooking device to execute the cooking operation with a time execution sequence formed by the existing electronic menu and/or enabling the user to trigger the intelligent cooking device to form the cooking operation with the time execution sequence, and a brand new electronic menu or a secondary electronic menu can be created based on the cooking operation sequence recorded by the intelligent cooking device. Specifically, in the process of creating the electronic menu, repetition or redundancy with the electronic menu is possibly existed in the cooking operation triggered by the user, and after the cooking operation sequence recorded by the intelligent cooking equipment is obtained, whether a plurality of cooking operations in the cooking operation sequence meet the preset condition is judged, if yes, the plurality of cooking operations meeting the preset condition are combined, and the electronic menu is generated based on the combined operation information and the preset menu data. The intelligent cooking equipment comprises a server side, an intelligent terminal and an intelligent terminal, wherein the server side of the intelligent cooking equipment executes the processes of obtaining a cooking operation sequence, judging the cooking operation sequence and combining to generate an electronic menu, the intelligent terminal can also establish communication connection with the intelligent terminal, the intelligent terminal transmits the stored electronic menu to the intelligent cooking equipment, the intelligent terminal controls the intelligent cooking equipment to execute a cooking task based on cooking data in the electronic menu, the intelligent cooking equipment acquires the cooking operation sequence in the process of executing the cooking task and transmits the cooking operation sequence to the intelligent terminal, and the intelligent terminal executes the processes of judging the cooking operation sequence and combining to generate the electronic menu. In a practical application scenario, the intelligent cooking device may record the electronic recipe and a cooking operation sequence triggered by a user in real time, for example, a feeding operation, a pot setting parameter and a corresponding time point, and the cooking operation sequence is adjusted or supplemented and perfected by a server corresponding to the intelligent cooking device and/or the intelligent terminal, so as to generate a complete electronic recipe.

The method for generating the electronic menu provided by the embodiment of the invention can be applied to intelligent cooking equipment and/or an intelligent terminal side, and comprises the following steps:

101. and acquiring a cooking operation sequence recorded by the intelligent cooking equipment.

In general, in the process of intelligently making dishes, on one hand, an intelligent cooking device can directly obtain a cooking operation sequence by triggering an operation button on the intelligent cooking device and create an electronic menu based on the cooking operation sequence, on the other hand, the intelligent cooking device can trigger the operation button on the intelligent cooking device to obtain the cooking operation sequence formed by the electronic menu and a user together in the running process of the existing electronic menu, and perform secondary creation on the existing electronic menu based on the cooking operation sequence formed by the electronic menu and the user together. The electronic menu is an electronic program file, can automatically control the implementation of a cooking process, such as controlling firepower, power, temperature, time or ingredients, and the like, can be an electronic version menu formed by any dishes, and can be used for cooking, stewing and steaming, such as stir-frying eggs with tomatoes, mugwort, sweet and sour spareribs, and the like. The intelligent cooking equipment can be composed of a plurality of cooking equipment with different cooking functions, and specifically can comprise batching equipment, the seasonings for making dishes are put into the batching equipment, so that the batching equipment controls the putting of various seasonings at the blanking time set by an electronic menu, the intelligent cooking equipment can also comprise a cooker, the food materials for making dishes are put into the cooker, so that the cooker controls the cooker to execute cooking actions at the cooking time set by the electronic menu, for example, stir-frying, cooking and the like, the intelligent cooking equipment can also comprise the cooker, and the heating power of the cooker is controlled in the process of making dishes, the intelligent cooking equipment can also be integrated with the cooking equipment integrating various cooking functions, so that the data transmission time between the intelligent cooking equipment can be saved, and errors or omission of cooking data in the transmission process can be avoided.

Specifically, in the cooking process, the cooking operation sequence recorded by the intelligent cooking device can be manually triggered by the user, for example, the user triggers heating for 1 minute after starting cooking, triggers the operation of releasing the seasoning A in 1 minute and 10 seconds, and triggers the operation of releasing the seasoning B in 1 minute and 20 seconds; the electronic menu operation can be combined with the manual triggering of the user, for example, the electronic menu performs the heating operation for 60 seconds within 2 minutes and 20 seconds of the operation, performs the stir-frying operation for 20 seconds within 3 minutes and 40 seconds, and triggers the seasoning A throwing operation within 4 minutes and 20 seconds of the starting cooking and the seasoning B throwing operation within 4 minutes and 30 seconds.

It can be understood that, since the cooking process of the electronic recipe is a fully intelligent process, and different users have personalized differences in their likes and tastes, for example, some users have light preferences and some users have spicy preferences, the user may add personalized operations to a certain cooking step or perform a certain cooking operation based on the electronic recipe, so as to perform secondary creation on the electronic recipe, for example, add a material feeding operation and insert a heating operation, where the cooking operation formed by the personalized operations and the cooking operation performed in the electronic recipe form a cooking operation sequence recorded by the cooking device.

102. And judging whether the plurality of cooking operations in the cooking operation sequence meet preset conditions.

Because the cooking operation manually triggered by the user is not limited, repeated or redundant cooking operation is likely to occur, and the cooking operation sequence recorded by the intelligent cooking equipment records the cooking operation triggered by the user each time, for example, after the user triggers the feeding operation, the user finds that the feeding amount is still insufficient, and then triggers the feeding operation twice, and for example, after the user triggers the heating operation, the user finds that the heating power is insufficient, and then increases the heating power, so that a large number of cooking operations of the same type or repeated cooking operations exist in the cooking operation sequence, and the created electronic menu inevitably has redundancy, and the operating efficiency of the subsequent electronic menu is influenced. Whether a plurality of cooking operations in the cooking operation sequence meet preset conditions can be judged, the preset conditions can be whether repeated cooking operations exist in adjacent cooking operations or not, whether the same type of cooking operations exist in the plurality of cooking operations or not can be further judged, the plurality of cooking operations in the cooking operation sequence are combined, and the resource occupation of the intelligent cooking equipment is saved.

103. If yes, merging the plurality of cooking operations meeting the preset conditions.

It is understood that the plurality of cooking operations meeting the preset condition are usually repeated and have the same operation type, and the parameter combination can be performed, so that the plurality of cooking operations meeting the preset condition are further subjected to the combination processing. Specifically, in the process of combined cooking operation, because different types of cooking operations have special requirements on the change modes of cooking parameters, different combining modes can be performed for different types of cooking operations, combined processing can be performed for feeding type cooking operations, the feeding amount accumulated by multiple feeding operations can be directly used as the feeding amount of the feeding operation after the combination, combined processing can be performed for the cooking operation of heating power adjustment type, the heating power cannot be directly accumulated, and the heating power adjusted at the last time needs to be selected from two heating powers to be used as the heating power of the heating operation after the combination.

104. And generating an electronic menu based on the combined operation information and preset menu data.

The combined operation information can be combined with a plurality of cooking operations meeting preset conditions in a cooking operation sequence into one cooking operation, and then a plurality of combined operation information of the cooking operations is formed.

Compared with the mode that the created electronic menu is redundant due to frequent operation in the prior art, the method for generating the electronic menu provided by the invention judges whether a plurality of cooking operations in the cooking operation sequence meet the preset condition or not by acquiring the cooking operation sequence recorded by the intelligent cooking equipment, and if so, combines the plurality of cooking operations meeting the preset condition, thereby avoiding repeated cooking operations in the electronic menu, saving the resource occupation of the intelligent cooking equipment, generating the electronic menu based on the combined operation information and the preset menu data, simplifying the operation steps in the electronic menu and improving the operation efficiency of the electronic menu.

In an actual application scenario, the merging process may not be executed for all cooking operations, but a plurality of cooking operations satisfying a preset condition need to be executed, and specifically, in the process of determining whether a plurality of cooks in the cooking operation sequence meet the preset condition, whether the plurality of cooking operations in the cooking operation sequence are in adjacent time intervals may be determined by using time points corresponding to the plurality of cooking operations, if yes, it is determined that the same type or repeated cooking operations may exist in the adjacent time intervals, and the plurality of cooking operations in the adjacent time intervals may be directly merged. For example, a plurality of cooking operations in adjacent 3s in the cooking operation sequence are merged, the time point of the merged cooking operation is the earliest time, the setting item is based on the last setting, and the setting item generally refers to the setting of the pot, for example, the power 1200w is set at 1s, the power 2400w is adjusted at 2s, the power 2400w is taken as the power of the pot after merging, of course, there is a high possibility that only one cooking operation is performed in adjacent 3s, and the merging process is not required. Further, in order to ensure consistency of execution of the merged cooking operations, before merging the plurality of cooking operations in the adjacent time intervals, whether the operation types corresponding to the plurality of cooking operations in the adjacent time intervals are the same or not may be detected, if so, the plurality of cooking operations in the same operation type are merged, otherwise, the plurality of cooking operations in the adjacent time intervals are split and merged into the cooking operations in the same operation type in other time intervals.

It is understood that the setting of the specific adjacent time interval can be adaptively adjusted according to the actual application scenario, for example, a shorter time interval is set for some cooking operations, such as a feeding operation and a stir-frying operation, a longer time interval is set for some cooking operations, such as a steaming operation, a personalized time interval is set for some cooking operations, for example, the starting stage of the heating operation often involves power adjustment, the shorter time interval can be set at the starting stage of the heating operation, and the longer time interval is set at other stages of the heating operation, where the setting of the time interval is not limited.

Further, in order to ensure consistency of the execution of the combined cooking operations, whether the plurality of cooking operations in the cooking operation sequence belong to the same operation type or not can be judged by using the operation types corresponding to the plurality of cooking operations in the process of judging whether the plurality of cooking operations in the cooking operation sequence meet the preset condition, and if yes, the plurality of cooking operations in the same operation type are combined. It will be appreciated that, in addition to requiring the same operation type for a plurality of cooking operations within the same time interval, the consolidation process may be performed for other cooking operations if they are of the same operation type. Specifically, if it is determined that the user has multiple frequent cooking operations for the same feeding operation, the feeding operations may be combined into one, and the specific combining time point may be based on the earliest set time or may be based on the latest set time, for example, the user adds 5g of salt at 5s, 2g of salt at 10s, and 1g of salt at 15s, and then the user may directly combine the operations into 8g of salt at 5s or 8g of salt at 15s, so that the finally created electronic menu does not need the batching device to perform multiple feeding operations of the same seasoning, and the resource occupation of the batching device is saved.

Because the execution times of the multiple cooking operations of the same operation type are different, the unified execution time is needed after the combination processing, for example, the heating operation is executed in 3s, the power of the heating operation is increased in 5s, and the power of the heating operation is reduced in 6 s, at this time, the multiple cooking operations correspond to the same equipment type, which is equivalent to an equipment carrier capable of executing the multiple cooking operations and the combined cooking operation, for example, for a stir-frying operation, the equipment type may be a rotating pan, for a feeding operation, the equipment type may be a batching equipment, for a cooking operation, the equipment type may be a frying pan, and particularly, in the process of combining the multiple cooking operations of the same operation type, the cooking parameters of the combined cooking operation may be set based on the equipment types and time points corresponding to the multiple cooking operations of the same operation type, the cooking parameters are functional parameters that need to be executed in the combined cooking operation, for example, for the material feeding operation, the cooking parameters may be the type of seasoning, the material feeding amount, and the material feeding time, and for the heating operation, the cooking parameters may be the heating duration and the heating power.

Specifically, in the process of setting the cooking parameters of the combined cooking operation based on the device types and the cooking times corresponding to the multiple cooking operations of the same operation type, the combined processing method applicable to the multiple cooking operations of different operation types may include the following two cases, if the multiple cooking operations of the same operation type relate to the cooking operation of the ingredient device, the ingredient parameters corresponding to the multiple cooking operations are combined by superposition to serve as the cooking parameters corresponding to the combined cooking operation, and the preset cooking time is selected from the cooking times corresponding to the multiple cooking operations to serve as the cooking time corresponding to the combined cooking operation, for example, multiple feeding operations are combined to one feeding operation, the feeding amount is accumulated, and any one feeding time is selected to serve as the cooking time of the feeding operation; if the plurality of cooking operations of the same operation type are cooking operations related to the intelligent cooking device, selecting the cooking time and the cooking parameter corresponding to the last executed cooking operation from the plurality of cooking operations as the cooking time and the cooking parameter corresponding to the cooking operation after combination processing for the plurality of cooking operations within the same preset time period, for example, combining the plurality of heating operations into one heating operation, and selecting the last heating operation and using the heating time as the cooking time of the heating operation.

It should be noted that the cooking operation of the intelligent cooking device is likely to be changed in stages during the cooking process, for example, heating at the beginning and heating at the end, while heating at the beginning and at the end should not be combined, and the continuous change is not the case for the cooking process, in the course of the merging process of the plurality of cooking operations involving the intelligent cooking apparatus, it is necessary to consider the time-correlation of the plurality of cooking operations, if the multiple cooking operations are not in the same preset time, the multiple cooking operations are not changed continuously but changed in stages, the multiple cooking operations do not need to be combined, if the plurality of cooking operations are in the same time, the plurality of cooking operations are continuously changed, and the plurality of cooking operations can be combined.

In an actual cooking scene, the intelligent cooking device can continuously record cooking operation instructions in the cooking process, particularly in the process of acquiring the cooking operation sequence recorded by the intelligent cooking device, by acquiring the operation instruction sequence received by the intelligent cooking device, the intelligent cooking device triggers one cooking operation each time, receives one operation instruction, for example, triggering heating operation, receiving a heating operation instruction, triggering feeding operation, receiving a feeding instruction, since the operation command may be triggered by a corresponding function button on the intelligent cooking device, and a function button added by the user during the operation idle time may also be added, further based on the execution mode corresponding to the plurality of operation commands in the operation command sequence, and adjusting the instruction time recorded by the plurality of operation instructions in the operation instruction sequence, and forming the plurality of operation instructions in the operation instruction sequence into the cooking operation sequence recorded by the intelligent cooking equipment according to the adjusted instruction time. Specifically, the execution modes may specifically include two types, namely, an automatic execution mode and a manual execution mode, the automatic execution mode is triggered by a corresponding function module of the intelligent cooking device, for example, the automatic feeding is performed by the batching device, the automatic stir-frying is performed by the turner, the manual execution mode is not triggered by a corresponding function module of the intelligent cooking device, but is performed manually by the user, for example, the user feeds the material by using a material bottle, the user manually stir-frying is performed by using the turner, for the automatic execution mode, the intelligent cooking device may accurately record a cooking execution time, that is, an instruction time of an operation instruction, for the intelligent cooking device, although the cooking execution time additionally recorded by the user is recorded, for the manual execution mode, the cooking execution time usually lags behind the time for the user to perform the cooking operation, a pre-adjustment needs to be performed on the cooking execution time additionally recorded by the user, and it may be determined whether an execution mode corresponding to, the preset execution mode can be a manual execution mode or an automatic execution mode, for the manual execution mode, a user manually throws materials in 1 minute, and a supplementary feeding button on the intelligent cooking device after blanking, at this time, the execution time of feeding operation needs to be preset correspondingly to the trigger time of the supplementary feeding button, the specific preset time can be manually adjusted by the user based on the time sequence of the cooking steps, for the automatic execution mode, the user triggers the feeding button on the intelligent cooking device to execute automatic feeding in 1 minute, because the batching device is provided with batching preparation time and dispensing time, blanking can be prepared in 55 seconds, considering the preparation time of the batching device, the specific preset time can be adjusted by the intelligent cooking device according to the preparation time needed by different device types, if so, the preset adjustment is carried out on the instruction time recorded by the operation instruction of the preset execution mode in the operation instruction sequence, since the user usually adds the execution time after performing the cooking operation by himself to avoid omission of the cooking operation, the preset adjustment is usually a short time, and certainly, for convenience of the user operation, the preset adjustment may not be a specific time point but may be preset before a certain cooking operation or during a certain cooking operation, and specifically, the preset adjustment mode may be set according to the actual cooking requirement to improve the flexibility of the electronic recipe generation process.

In the scene of generating an actual electronic recipe, as an implementation, a process of generating the electronic recipe may be directly generated using a cooking operation sequence recorded by an intelligent cooking device, the intelligent cooking device may record all cooking operation sequences in the cooking process, merge a plurality of cooking operations in the cooking operation sequence that meet a preset condition, and generate the electronic recipe based on the merged operation information and preset recipe data, as another implementation, record all cooking operation execution processes using the intelligent cooking device, the cooking operation may include a cooking operation controlled by an intelligent terminal based on the electronic recipe and/or a cooking operation triggered by a user, and transmit the cooking operation sequence to an APP end of the intelligent terminal after the cooking operation is executed, the APP end may create an APP for the recipe, the method comprises the steps of creating a brand new electronic menu aiming at a cooking operation sequence or creating a secondary electronic menu based on a part of cooking operation sequences executed by the existing electronic menus, judging whether cooking operations in the cooking execution sequence accord with preset conditions or not by an APP (application) end, if so, merging a plurality of cooking operations which accord with the preset conditions, and generating the electronic menu by merging operation data and preset menu data after the merging.

Specifically, to intelligent cooking equipment based on having carried out the application scene of secondary creation for the electron menu, the interactive process between intelligent cooking equipment and the intelligent terminal can be as shown in fig. 1, intelligent terminal and intelligent cooking equipment establish communication connection, and control intelligent cooking equipment operation electron menu, by intelligent cooking equipment record culinary art operation sequence, and with this culinary art operation sequence send to intelligent terminal's APP end, whether accord with preset condition by APP end to a plurality of culinary art operations in the culinary art operation sequence and judge, if yes, then merge the back with a plurality of culinary art operations, the operation data after will merging the processing and preset menu data generation electron menu. In the practical use of the APP, the user can edit whether the multiple cooking operation sequences are combined at the APP so as to select the time position of the combined cooking operation. For the cooking operation triggered by the user, the user may edit the merging time or merging parameters of the corresponding cooking operation based on the operation information recorded in the cooking operation sequence, or set the merging time and merging parameters in a default electronic menu generation manner at the APP end, which is not limited herein.

Further, as a specific implementation of the foregoing method, an apparatus for generating an electronic menu provided in an embodiment of the present invention, as shown in fig. 2, includes: the device comprises an acquisition module 21, a judgment module 22, a merging module 23 and a generation module 24.

The obtaining module 21 may be configured to obtain a cooking operation sequence recorded by the intelligent cooking device;

the judging module 22 may be configured to judge whether a plurality of cooking operations in the cooking operation sequence meet a preset condition;

the merging module 23 is configured to merge a plurality of cooking operations meeting a preset condition if the cooking operation meets the preset condition;

the generating module 24 may be configured to generate an electronic recipe based on the merged operation information and preset recipe data.

Compared with the mode that the created electronic menu is redundant due to frequent operation in the prior art, the electronic menu generation device provided by the invention judges whether a plurality of cooking operations in the cooking operation sequence meet the preset condition or not by acquiring the cooking operation sequence recorded by the intelligent cooking equipment, and if so, combines the plurality of cooking operations meeting the preset condition, thereby avoiding repeated cooking operations in the electronic menu, saving the resource occupation of the intelligent cooking equipment, generating the electronic menu based on the combined operation information and the preset menu data, simplifying the operation steps in the electronic menu and improving the operation efficiency of the electronic menu.

Further, the determining module 22 may be specifically configured to determine whether the plurality of cooking operations in the cooking operation sequence are in adjacent time intervals by using time points corresponding to the plurality of cooking operations;

the merging module 23 may be specifically configured to merge a plurality of cooking operations in adjacent time intervals if yes.

Further, the apparatus further comprises:

the detection module may be configured to detect whether operation types corresponding to the plurality of cooking operations in adjacent time intervals are the same before the cooking operations in adjacent time intervals are subjected to the merging processing;

the merging module 23 may be further configured to merge a plurality of cooking operations of the same operation type if the operation type of the cooking operation is the same;

the merging module 23 may be further specifically configured to merge the multiple cooking operations in the adjacent time intervals into the cooking operations of the same operation type in other time intervals after the multiple cooking operations in the adjacent time intervals are split.

Further, the determining module 22 may be specifically configured to determine whether the multiple cooking operations in the cooking operation sequence belong to the same operation type by using operation types corresponding to the multiple cooking operations;

the merging module 23 may be further configured to merge a plurality of cooking operations of the same operation type if the operation type is the same.

Further, the merging module 23 may be specifically configured to set cooking parameters of the cooking operation after the merging processing based on the device type and the time point corresponding to the multiple cooking operations of the same operation type.

Further, the combining module 23 may be specifically configured to combine, by overlapping, the ingredient parameters corresponding to the plurality of cooking operations as the cooking parameters corresponding to the combined cooking operation if the plurality of cooking operations of the same operation type are the cooking operations related to the ingredient device, and select a preset cooking time from the cooking times corresponding to the plurality of cooking operations as the cooking time corresponding to the combined cooking operation;

the merging module 23 may be further specifically configured to, if the multiple cooking operations of the same operation type relate to cooking operations of the intelligent cooking device, select, from the multiple cooking operations, a cooking time and a cooking parameter corresponding to a last executed cooking operation as a cooking time and a cooking parameter corresponding to a cooking operation after merging processing, for the multiple cooking operations within the same preset time period.

Further, the obtaining module 21 includes:

the intelligent cooking device comprises an acquisition unit, a processing unit and a control unit, wherein the acquisition unit can be used for acquiring an operation instruction sequence received by the intelligent cooking device;

the adjusting unit may be configured to adjust instruction times recorded by a plurality of operation instructions in the operation instruction sequence based on execution modes corresponding to the plurality of operation instructions in the operation instruction sequence;

and the generating unit can be used for forming the plurality of operation instructions in the operation instruction sequence into the cooking operation sequence recorded by the intelligent cooking equipment according to the adjusted instruction time.

Further, the adjusting unit may be specifically configured to determine whether an execution mode corresponding to a plurality of operation instructions in the operation instruction sequence is a preset execution mode;

the adjusting unit may be further configured to perform pre-adjustment on instruction time recorded by an operation instruction in a preset execution mode in the operation instruction sequence if the instruction time is positive.

In an exemplary embodiment, referring to fig. 3, there is further provided a device, where the device 400 includes a communication bus, a processor, a memory, and a communication interface, and may further include an input/output interface and a display device, where the functional units may communicate with each other through the bus. The memory stores computer programs, and the processor is used for executing the programs stored in the memory and executing the method for generating the electronic menu in the embodiment.

A computer-readable storage medium, on which a computer program is stored which, when being executed by a processor, carries out the steps of the method of generating an electronic recipe.

Through the above description of the embodiments, those skilled in the art will clearly understand that the present application can be implemented by hardware, and also by software plus a necessary general hardware platform. Based on such understanding, the technical solution of the present application may be embodied in the form of a software product, which may be stored in a non-volatile storage medium (which may be a CD-ROM, a usb disk, a removable hard disk, etc.), and includes several instructions for enabling a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the method according to the implementation scenarios of the present application.

Those skilled in the art will appreciate that the figures are merely schematic representations of one preferred implementation scenario and that the blocks or flow diagrams in the figures are not necessarily required to practice the present application.

Those skilled in the art will appreciate that the modules in the devices in the implementation scenario may be distributed in the devices in the implementation scenario according to the description of the implementation scenario, or may be located in one or more devices different from the present implementation scenario with corresponding changes. The modules of the implementation scenario may be combined into one module, or may be further split into a plurality of sub-modules.

The above application serial numbers are for description purposes only and do not represent the superiority or inferiority of the implementation scenarios.

The above disclosure is only a few specific implementation scenarios of the present application, but the present application is not limited thereto, and any variations that can be made by those skilled in the art are intended to fall within the scope of the present application.

Claims

1. A method for generating an electronic menu, comprising:

2. The method according to claim 1, wherein the determining whether the plurality of cooking operations in the cooking operation sequence meet a preset condition, and if yes, merging the plurality of cooking operations meeting the preset condition, specifically comprises:

3. The method of claim 2, wherein prior to said combining cooking operations in adjacent time intervals, the method further comprises:

if yes, merging a plurality of cooking operations of the same operation type;

4. The method according to claim 1, wherein the determining whether the plurality of cooking operations in the sequence of cooking operations meet a preset condition further comprises:

5. The method according to claim 3 or 4, wherein the merging of the plurality of cooking operations of the same operation type comprises:

6. The method according to claim 5, wherein the setting of the cooking parameters of the combined cooking operation based on the device type and the cooking time corresponding to the plurality of cooking operations of the same operation type specifically comprises:

7. The method according to any one of claims 1 to 6, wherein the obtaining of the cooking operation sequence recorded by the intelligent cooking device specifically comprises:

8. The method according to claim 7, wherein the adjusting instruction time recorded by the plurality of operation instructions in the operation instruction sequence based on the execution mode corresponding to the plurality of operation instructions in the operation instruction sequence specifically includes:

9. An apparatus for generating an electronic menu, comprising:

10. An apparatus comprising a memory and a processor, the memory storing a computer program, wherein the processor implements the steps of the method of any one of claims 1 to 8 when executing the computer program.

11. A readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method according to any one of claims 1 to 8.