A network control-based intelligent cooking distribution integrated cooker method
By using a network-controlled intelligent cooking and distribution integrated stove, the entire process from ingredient selection to cooking is fully automated, solving the problems of limited functionality and safety hazards of existing equipment, and improving user experience and safety.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Applications(China)
- Current Assignee / Owner
- 朱金彪
- Filing Date
- 2026-02-28
- Publication Date
- 2026-06-05
AI Technical Summary
Existing smart cooking equipment has limited functionality, cannot achieve full-process automation, poses safety hazards, and has poor interoperability, making it difficult to achieve intelligent scheduling and sequential cooking of multiple dishes.
The integrated stove adopts a network-based intelligent cooking and distribution method, which includes a user interaction module, a communication module, an intelligent monitoring and safety module, a data analysis, processing and scheduling module, and a machine cooking execution module. It realizes fully automated operation from food selection to the cooking process, and is equipped with a visual recognition unit and a safety alarm mechanism.
It has achieved full automation from ingredient procurement to finished product, improved the intelligence level of kitchen operations, enhanced ease of use and safety, and avoided food waste and safety accidents.
Smart Images

Figure CN122151600A_ABST
Abstract
Description
Technical Field
[0001] This invention belongs to the field of intelligent cooking and dispensing integrated stove technology, specifically a method for intelligent cooking and dispensing integrated stove based on network control. Background Technology
[0002] With the fast pace of modern life, people's time allocation between work and life is becoming increasingly tight, posing numerous challenges to traditional cooking methods. On the one hand, many people lack sufficient time or cooking experience, making it difficult to ensure the nutrition and taste of their daily meals. On the other hand, even those with some cooking skills find the tedious process of buying, washing, chopping, and cooking vegetables consumes a significant amount of energy and time, leading to a gradual decrease in the frequency of home cooking and making takeout and pre-prepared foods the choice for more and more people. However, long-term reliance on takeout not only poses food safety risks but also hinders the establishment of a healthy dietary structure.
[0003] Currently, there are some smart kitchen appliances on the market, such as smart stir-fry machines and rice cookers, which can simplify the cooking process to some extent and achieve functions such as timed start and remote control. However, most of these devices are single-function, only capable of preparing specific types of dishes, and the ingredients still need to be prepared by the user, failing to truly achieve full automation from "ingredients to finished product". In addition, existing smart cooking equipment still has significant shortcomings in terms of intelligence, safety monitoring, and personalized services: for example, it lacks real-time visual recognition and safety warning mechanisms for the cooking process, posing safety hazards such as fire and gas leaks when unattended; at the same time, the interconnectivity between devices is poor, making it difficult to intelligently schedule and cook multiple dishes in sequence according to the user's dining time. Summary of the Invention
[0004] The purpose of this invention is to provide a network-controlled intelligent cooking and distribution integrated stove method to solve the problems mentioned in the background art.
[0005] To achieve the above objectives, the present invention provides the following technical solution: a network-controlled intelligent cooking and distribution integrated stove method, comprising a user interaction module, a communication module, an intelligent monitoring and safety module, a data analysis, processing and scheduling module, a machine cooking execution module, and a food procurement, distribution and transportation module. The user interaction module provides an entry point for users to interact with the system, and users can realize personalized settings and remote control through a mobile APP.
[0006] The communication module is used to enable data communication between various modules;
[0007] The intelligent monitoring and safety module is used to receive control commands from the mobile APP to ensure the safety of the food cooking process.
[0008] The data analysis, processing, and scheduling module is used to receive instructions from users on the mobile app, and to perform data parsing, task scheduling, and instruction distribution.
[0009] The machine cooking execution module is used to execute cooking commands issued by the mobile APP, realizing automated stir-frying, cleaning and switching;
[0010] The food procurement, distribution, and transportation module is used to procure the food selected by the user on the mobile APP, and then clean, cut, package, and deliver it to the user's home.
[0011] As a further preferred embodiment of this technical solution, intelligent cooking includes the following steps:
[0012] S1: Users can select several dishes they want to eat, their cooking methods, portion sizes, and taste preferences through the mobile app platform.
[0013] S2: The manufacturer receives the information from the APP and arranges the purchase of ingredients in order according to the quantity and cooking method of the dishes.
[0014] S3: The corresponding vegetables and ingredients are cleaned, cut, and packaged by designated personnel and then delivered to the user's home;
[0015] S4: Users place the delivered ingredients into the corresponding positions in order;
[0016] S5: Smart cooking integrated stove robot, which automatically puts in the corresponding ingredients for cooking according to the program instructions transmitted by the APP;
[0017] S6: After each dish is cooked, it automatically pours the contents into bowls and plates, and automatically cleans the wok to prepare for the next dish.
[0018] As a further preferred embodiment of this technical solution: the user interaction module includes a menu selection unit, a time setting unit, a remote control unit, and a status monitoring unit;
[0019] The dish selection section allows users to choose dishes, portion sizes, cooking methods, and taste preferences through the app;
[0020] The time setting unit is used to set the user's meal time, and the robot automatically calculates the cooking start time;
[0021] The remote control unit is used to support users in remotely starting, pausing, and terminating the cooking process of dishes;
[0022] The status monitoring unit is used to control the intelligent monitoring and safety module to view the cooking progress and the status of the cooking equipment in real time;
[0023] As a further preferred embodiment of this technical solution: the communication module supports the integrated stove to access the Internet via Wi-Fi / 5G, communicate with the cloud platform, and realize network control for intelligent cooking of dishes;
[0024] As a further preferred embodiment of this technical solution: the intelligent monitoring and security module includes a visual recognition unit and an alarm unit;
[0025] The visual recognition unit is equipped with a camera, which can remotely monitor and use artificial intelligence technology to identify flames and food, and transmit the status to the alarm unit. The alarm unit transmits abnormal flames and smoke to the mobile APP to alarm and shuts down the heating system at the same time.
[0026] As a further preferred embodiment of this technical solution: the data analysis and processing scheduling module includes a program generation unit, a task scheduling unit, and an instruction transmission unit;
[0027] The program generation unit is used to automatically generate the corresponding cooking program based on the selected dish;
[0028] The task scheduling unit is used to calculate the start time of each dish and arrange the cooking order according to the user-set dining time.
[0029] The instruction transmission unit is used to transmit the cooking program to the smart cooking integrated stove robot in the user's home via Wi-Fi / 5G Internet access module.
[0030] Compared with the prior art, the beneficial effects of the present invention are:
[0031] 1. In this invention, through the collaborative work of the user interaction module (mobile APP), data analysis and processing scheduling module, and machine cooking execution module, the entire process from dish selection, program generation, automatic cooking to pot cleaning is fully automated. Users can enjoy delicious food without having to cook themselves, which greatly improves the intelligence level of kitchen operations and user experience. Furthermore, by utilizing more advanced technologies and concepts, it improves people's lifestyles and solves the problems of not having time or energy to cook, or not knowing how to cook, or cooking poorly.
[0032] 2. In this invention, cooking time can be remotely set, and the cooking process can be started or paused via a mobile app. The cooking progress and equipment operating status can be viewed in real time through the status monitoring unit, which can flexibly respond to temporary changes in the schedule, avoid food waste or burning, and improve the convenience and safety of use. At the same time, the intelligent monitoring safety module is equipped with a visual recognition unit, including a camera and various sensors. Combined with artificial intelligence technology, it can identify the flame status and food condition in real time. Once an abnormality is detected, the system will automatically alarm and shut down the heating system, effectively preventing kitchen safety accidents. Attached Figure Description
[0033] Figure 1 This is a flowchart of a network-controlled intelligent cooking and distribution integrated stove method according to the present invention;
[0034] Figure 2 This is a flowchart illustrating the operation of a network-controlled intelligent cooking and food distribution integrated stove method according to the present invention. Detailed Implementation
[0035] The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.
[0036] Example
[0037] Please see Figures 1-2 As shown, the present invention provides a technical solution: a network-controlled intelligent cooking and distribution integrated stove method, including a user interaction module, a communication module, an intelligent monitoring and safety module, a data analysis, processing and scheduling module, a machine cooking execution module, and a food procurement, distribution and transportation module. The feature is that the user interaction module provides an entry point for users to interact with the system, and users can realize personalized settings and remote control through a mobile APP.
[0038] The communication module is used to enable data exchange between various modules;
[0039] The intelligent monitoring and safety module is used to receive control commands from the mobile app to ensure the safety of food preparation.
[0040] The data analysis, processing, and scheduling module is used to receive instructions from users on the mobile app, and to perform data parsing, task scheduling, and instruction distribution.
[0041] The machine cooking execution module is used to execute cooking commands issued by the mobile APP, realizing automated stir-frying, cleaning and switching;
[0042] The food procurement, distribution, and transportation module is used to procure the food selected by users on the mobile app, and then clean, cut, package, and deliver it to their homes.
[0043] Furthermore, the machine cooking execution module can automatically identify and place the corresponding ingredients into the wok according to the instructions of the mobile APP program. At the same time, it can accurately adjust the heat and heating time, support multi-stage temperature control, and realize automatic stir-frying through humanoid robots to simulate manual operation. After the cooking is completed, it automatically pours the dishes into bowls and plates, and then cleans the wok to prepare the next dish.
[0044] Furthermore, the food procurement, allocation, and transportation module can automatically match the required ingredient list based on user orders, arrange for procurement from manufacturers, and uniformly clean, cut, and classify the procured ingredients. The ingredients and seasonings required for each dish are then individually packaged, and finally, the processed ingredients are delivered to the user's home.
[0045] In this embodiment, specifically, intelligent cooking includes the following steps:
[0046] S1: Users can select several dishes they want to eat, their cooking methods, portion sizes, and taste preferences through the mobile app platform.
[0047] S2: The manufacturer receives the information from the APP and arranges the purchase of ingredients in order according to the quantity and cooking method of the dishes.
[0048] S3: The corresponding vegetables and ingredients are cleaned, cut, and packaged by designated personnel and then delivered to the user's home;
[0049] S4: Users place the delivered ingredients into the corresponding positions in order;
[0050] S5: Smart cooking integrated stove robot, which automatically puts in the corresponding ingredients for cooking according to the program instructions transmitted by the APP;
[0051] S6: After each dish is cooked, it automatically pours the contents into bowls and plates, and automatically cleans the wok to prepare for the next dish.
[0052] like Figure 2 As shown: Further working principle:
[0053] First, users select several dishes, cooking methods, portion sizes, and taste preferences through the mobile app platform in the user interaction module. Then, the data analysis, processing, and scheduling module receives the information from the mobile app and transmits it to the food procurement, allocation, and transportation module. The food procurement, allocation, and transportation module controls the manufacturer to arrange the procurement of ingredients in order according to the portion sizes and cooking methods of the dishes. The corresponding vegetables and ingredients are then cleaned, cut, and packaged by designated personnel and delivered to the user's home. Subsequently, the user places the delivered ingredients into the corresponding positions in order and transmits the cooking start information through the mobile app. The smart cooking integrated stove robot in the machine cooking execution module automatically puts in the corresponding ingredients and cooks them according to the program instructions transmitted by the app. After each dish is cooked, it automatically pours the contents into bowls and plates and automatically cleans the wok to cook the next dish.
[0054] In this embodiment, specifically: the user interaction module includes a dish selection unit, a time setting unit, a remote control unit, and a status monitoring unit;
[0055] The dish selection section allows users to choose dishes, portion sizes, cooking methods, and taste preferences through the app;
[0056] The time setting unit is used to set the user's meal time, and the robot automatically calculates the cooking start time;
[0057] The remote control unit is used to support users in remotely starting, pausing, and terminating the cooking process of dishes;
[0058] The status monitoring unit is used to control the intelligent monitoring and safety module to view the cooking progress and the status of the cooking equipment in real time;
[0059] Furthermore, when users temporarily change their itinerary or dining plans, they can use the remote control unit to control the APP to adjust the equipment's operating status in real time, avoiding food waste or overcooking;
[0060] In this embodiment, specifically: the communication module supports the integrated stove to access the Internet via Wi-Fi / 5G, communicate with the cloud platform, and realize network control for intelligent cooking of dishes;
[0061] Furthermore, the communication module incorporates a built-in security encryption mechanism to ensure the secure transmission of user privacy data and control commands, preventing unauthorized access and tampering.
[0062] In this embodiment, specifically: the intelligent monitoring security module includes a visual recognition unit and an alarm unit;
[0063] The visual recognition unit is equipped with a camera, which can remotely monitor and use artificial intelligence technology to identify flames and food, and transmit the status to the alarm unit. The alarm unit transmits abnormal flames and smoke to the mobile APP to alarm and shuts down the heating system at the same time.
[0064] Furthermore: The alarm unit includes a smoke sensor, a temperature sensor, and a gas leak sensor, which are installed in the kitchen of the home. Upon detecting an abnormal signal, the safety response mechanism is immediately triggered to issue an alarm.
[0065] In this embodiment, specifically: the data analysis and processing scheduling module includes a program generation unit, a task scheduling unit, and an instruction transmission unit;
[0066] The program generation unit is used to automatically generate the corresponding cooking program based on the selected dish;
[0067] The task scheduling unit is used to calculate the start time of each dish based on simple addition and subtraction according to the user-set dining time, and to arrange the cooking order.
[0068] The instruction transmission unit is used to transmit the cooking program to the smart cooking integrated stove robot in the user's home via Wi-Fi / 5G Internet access module, and the smart cooking integrated stove robot can complete the cooking five minutes before the meal;
[0069] Although embodiments of the invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the appended claims and their equivalents.
Claims
1. A network-controlled intelligent cooking and distribution integrated stove method, comprising a user interaction module, a communication module, an intelligent monitoring and safety module, a data analysis, processing and scheduling module, a machine cooking execution module, and a food procurement, distribution and transportation module, characterized in that: The user interaction module provides an entry point for users to interact with the system, allowing users to personalize settings and remotely control the system through a mobile app. The communication module is used to enable data communication between various modules; The intelligent monitoring and safety module is used to receive control commands from the mobile APP to ensure the safety of the food cooking process. The data analysis, processing, and scheduling module is used to receive instructions from users on the mobile app, and to perform data parsing, task scheduling, and instruction distribution. The machine cooking execution module is used to execute cooking commands issued by the mobile APP, realizing automated stir-frying, cleaning and switching; The food procurement, distribution, and transportation module is used to procure the food selected by the user through the mobile app, and then clean, cut, package, and deliver it to their home.
2. A method for a network-controlled intelligent cooking and distribution integrated stove according to claim 1, characterized in that: Smart cooking includes the following steps: S1: Users can select several dishes they want to eat, their cooking methods, portion sizes, and taste preferences through the mobile app platform. S2: The manufacturer receives the information from the APP and arranges the purchase of ingredients in order according to the quantity and cooking method of the dishes. S3: The corresponding vegetables and ingredients are cleaned, cut, and packaged by designated personnel and then delivered to the user's home; S4: Users place the delivered ingredients into the corresponding positions in order; S5: Smart cooking integrated stove robot, which automatically puts in the corresponding ingredients for cooking according to the program instructions transmitted by the APP; S6: After each dish is cooked, it automatically pours the contents into bowls and plates, and automatically cleans the wok to prepare for the next dish.
3. A method for a network-controlled intelligent cooking and distribution integrated stove according to claim 2, characterized in that: The user interaction module includes a menu selection unit, a time setting unit, a remote control unit, and a status monitoring unit. The dish selection section allows users to choose dishes, portion sizes, cooking methods, and taste preferences through the app; The time setting unit is used to set the user's meal time, and the robot automatically calculates the cooking start time; The remote control unit is used to support users in remotely starting, pausing, and terminating the cooking process of dishes; The status monitoring unit is used to control the intelligent monitoring and safety module to view the cooking progress and the status of the cooking equipment in real time.
4. A method for a network-controlled intelligent cooking and distribution integrated stove according to claim 3, characterized in that: The communication module supports the integrated stove to access the Internet via Wi-Fi / 5G and communicate with the cloud platform to achieve network control of intelligent cooking of dishes.
5. A method for a network-controlled intelligent cooking and distribution integrated stove according to claim 4, characterized in that: The intelligent monitoring and security module includes a visual recognition unit and an alarm unit; The visual recognition unit is equipped with a camera, which can remotely monitor and use artificial intelligence technology to identify flames and food, and transmit the status to the alarm unit. The alarm unit transmits abnormal flames and smoke to the mobile APP to sound an alarm, and at the same time shuts down the heating system.
6. A method for a network-controlled intelligent cooking and distribution integrated stove according to claim 5, characterized in that: The data analysis and processing scheduling module includes a program generation unit, a task scheduling unit, and an instruction transmission unit. The program generation unit is used to automatically generate the corresponding cooking program based on the selected dish; The task scheduling unit is used to calculate the start time of each dish and arrange the cooking order according to the user-set dining time. The instruction transmission unit is used to transmit the cooking program to the smart cooking integrated stove robot in the user's home via Wi-Fi / 5G Internet access module.