阅读说明：本技术 智能指导高效厨房灶具控制方法、装置及智能厨房 (Intelligent guidance efficient kitchen stove control method and device and intelligent kitchen ) 是由 谢卫国 刘岩 尹贺伟 潘利敏 于 2021-03-08 设计创作，主要内容包括：本申请涉及一种智能指导高效厨房灶具控制方法、装置及智能厨房,智能指导高效厨房灶具控制方法包括通过获取预设的特定检测区域内的智能炒锅的当前炒锅被触摸信息；根据获取的所述智能炒锅的当前炒锅被触摸信息判断是否需要启动智能灶；若判断为是,则生成智能灶启动指令,并将智能灶启动指令发送至所述智能灶,所述智能灶启动指令用于控制所述智能灶开启火力。本发明先通过获取预设的特定检测区域内的智能炒锅的当前炒锅被触摸信息；再根据获取的所述智能炒锅的当前炒锅被触摸信息判断是否需要启动智能灶；若判断为是,则生成智能灶启动指令,实现根据用户实际需求在用户触摸炒锅的时启动灶火,进而方便用户使用,实现智能厨房的智能化设计。(The application relates to an intelligent guidance efficient kitchen range control method, an intelligent guidance efficient kitchen range control device and an intelligent kitchen, wherein the intelligent guidance efficient kitchen range control method comprises the steps of obtaining current frying pan touched information of an intelligent frying pan in a preset specific detection area; judging whether the intelligent stove needs to be started or not according to the acquired information that the current wok of the intelligent wok is touched; if the intelligent stove starting instruction is judged to be yes, an intelligent stove starting instruction is generated and sent to the intelligent stove, and the intelligent stove starting instruction is used for controlling the intelligent stove to open firepower. The method comprises the steps of firstly, acquiring the touch information of the current wok of the intelligent wok in a preset specific detection area; judging whether the intelligent stove needs to be started or not according to the acquired information that the current wok of the intelligent wok is touched; if the intelligent kitchen range is judged to be yes, an intelligent kitchen range starting instruction is generated, the stove fire is started when the user touches the frying pan according to the actual requirements of the user, the use of the user is facilitated, and the intelligent design of the intelligent kitchen is achieved.)

1. An intelligent guidance high-efficiency kitchen cooker control method is characterized by comprising the following steps:

step S100: acquiring touch information of a current wok of an intelligent wok in a preset specific detection area;

step S200: judging whether the intelligent stove needs to be started or not according to the acquired information that the current wok of the intelligent wok is touched;

step S300: if the intelligent stove starting instruction is judged to be yes, an intelligent stove starting instruction is generated and sent to the intelligent stove, and the intelligent stove starting instruction is used for controlling the intelligent stove to open firepower.

2. The intelligent guidance high efficiency kitchen hob control method according to claim 1, characterized in, that said step S200: according to the current frying pan of acquireing the intelligence frying pan is judged by touch information whether need start intelligent kitchen, specifically includes:

step S210: generating current touch profile information touching the intelligent wok according to the acquired current wok touched information of the intelligent wok;

step S220: comparing and analyzing the current touch profile information of the generated touch intelligent wok with prestored standard wok touch profile information, and generating a current similarity comparison analysis value;

step S230: judging whether the generated current similarity contrastive analysis value is larger than a preset standard cooking similarity value or not; wherein, when the judgement is for yes, start intelligent kitchen, if no, do not start intelligent kitchen.

3. The intelligent guidance high efficiency kitchen hob control method according to claim 1, characterized in, that the method further comprises:

step S410: detecting in real time according to the acquired information of the touch of the current wok of the intelligent wok and calculating to generate a current touched bearing capacity value born by the intelligent wok when the intelligent wok is touched;

step S420: comparing the current touched bearing capacity value born by the intelligent wok when the intelligent wok is touched through real-time detection and calculation with a preset standard intelligent wok lifting capacity value, and judging whether the current touched bearing capacity value is not smaller than the standard intelligent wok lifting capacity value or not, wherein the standard intelligent wok lifting capacity value is a preset minimum force value born by the intelligent wok when the intelligent wok is lifted;

step S430: if so, acquiring the duration time of the current touched bearing capacity value, namely the duration time of the current touched bearing capacity value;

step S440: comparing the duration time of the current touched bearing capacity value with a preset intelligent wok destacking standard time, and judging whether the duration time of the current touched bearing capacity value is greater than or equal to the preset intelligent wok destacking standard time or not;

step S451: if yes, generating an intelligent stove fire-stopping instruction, sending the intelligent stove fire-stopping instruction to the intelligent cooking bench, wherein the intelligent stove fire-stopping instruction is used for controlling the intelligent stove to stop firepower.

4. The intelligent guidance high efficiency kitchen hob control method according to claim 3, characterized in, that said step S440: comparing the duration time of the current touched bearing capacity value with preset intelligent wok destacking standard time, and judging whether the duration time of the current touched bearing capacity value is more than or equal to the preset intelligent wok destacking standard time, and then the method further comprises the following steps:

step S452: if not, generating an intelligent stove small fire control instruction, sending the intelligent stove small fire control instruction to the intelligent cooking bench, wherein the intelligent stove small fire control instruction is used for controlling the intelligent stove to adjust the firepower to be the preset small fire firepower.

5. The intelligent guidance high efficiency kitchen hob control method according to claim 1, characterized in, that said step S300: if judge for yes, then generate intelligent kitchen start instruction, and will intelligent kitchen start instruction send to the intelligent kitchen, intelligent kitchen start instruction is used for controlling still include after the firepower is opened to the intelligent kitchen:

step S610: after the intelligent stove is controlled to start firepower through the intelligent stove starting instruction, generating a range hood starting instruction;

step S620: sending the range hood starting instruction to an intelligent range hood, and controlling the intelligent range hood to start a smoke exhaust function;

step S630: detecting the current actual oil smoke content in a preset current oil smoke detection environment in real time;

step S640: judging whether the current actual oil smoke content in the detected current oil smoke detection environment is larger than a preset standard healthy oil smoke content or not;

step S650: if the current actual oil smoke content is not greater than the preset standard healthy oil smoke content, generating a smoke exhaust machine smoke increasing instruction, sending the smoke exhaust machine smoke increasing instruction to the intelligent smoke exhaust machine, and controlling the intelligent smoke exhaust machine to increase power smoke exhaust until the current actual oil smoke content is not greater than the preset standard healthy oil smoke content.

6. An intelligent guidance efficient kitchen range control device, characterized in that the device comprises:

the current wok touched information acquisition module is used for acquiring the current wok touched information of the intelligent wok in a preset specific detection area;

the first judgment module is used for judging whether the intelligent cooker needs to be started or not according to the acquired touch information of the current wok of the intelligent wok;

the intelligent stove starting instruction generating module is used for generating an intelligent stove starting instruction if the judgment result is yes, and sending the intelligent stove starting instruction to the intelligent stove, wherein the intelligent stove starting instruction is used for controlling the intelligent stove to open firepower.

7. The intelligent guidance high efficiency kitchen hob control device according to claim 6, characterized in, that the first judgment module comprises:

the current touch profile information generating module is used for generating current touch profile information of the touch intelligent wok according to the acquired touch information of the current wok of the intelligent wok;

the similarity contrast analysis value generation module is used for carrying out contrast analysis on the current touch profile information of the generated touch intelligent wok and prestored standard wok touch profile information and generating a current similarity contrast analysis value;

the second judgment module is used for judging whether the generated current similarity contrastive analysis value is larger than a preset standard cooking similarity value or not; wherein, when the judgement is for yes, start intelligent kitchen, if no, do not start intelligent kitchen.

8. An intelligent kitchen, characterized in that, intelligent kitchen includes the intelligent guidance high efficiency kitchen cooking utensils controlling means of claim 6, intelligent kitchen still includes intelligent frying pan, intelligent frying pan includes intelligent frying pan control panel, intelligent frying pan control panel includes:

the first touch detection circuit is used for detecting touched information of the intelligent wok;

the touch detection main control circuit is connected with the first touch detection circuit and is used for receiving the touched information of the intelligent wok detected by the first touch detection circuit and processing the touched information of the intelligent wok;

the second touch detection circuit is connected with the touch detection main control circuit and is used for detecting touched information of the intelligent wok;

the touch information display circuit is connected with the touch detection main control circuit and is used for receiving and displaying information to be displayed sent by the touch detection main control circuit; the first touch detection circuit comprises a plurality of first independent detection circuits, and each first independent detection circuit is connected with the touch detection main control circuit; each first independent detection circuit comprises a first touch detection chip and a first operational amplifier chip, each first operational amplifier chip is connected with each first touch detection chip, and each first operational amplifier chip is connected with the touch detection main control circuit;

the touch detection main control circuit comprises a touch detection main control chip, and the touch detection main control chip U4 is connected with each first operational amplifier chip;

the second touch detection circuit comprises a plurality of second independent detection circuits, and each second independent detection circuit is connected with the touch detection main control chip; each second independent detection circuit comprises a second touch detection chip and a second operational amplifier chip, each second operational amplifier chip is connected with each second touch detection chip, and each second operational amplifier chip is connected with the touch detection main control chip;

the touch information display circuit comprises a touch information display chip, and the touch information display chip U5 is connected with the touch detection main control chip.

9. A computer device 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 5 when executing the computer program.

10. 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 any one of claims 1 to 5.

Technical Field

The invention relates to the technical field of computers, in particular to an intelligent guidance efficient kitchen stove control method and device and an intelligent kitchen.

Background

The smart concept kitchen can identify the person entering the kitchen, and display any information the owner needs on the display screen in the kitchen, and synchronize with the family trip plan, allowing each member in the home to see what they need to do today, such as the school's bus schedule, the morning meeting time, the time to meet someone, and a suggestion to do a healthy lunch. In addition, it can also display the local temperature.

In addition, the smart stove in the kitchen can "sense" the object placed on it, such as when you place a cup of coffee on it, it can heat it to an optimal temperature. In addition, the display screen can be connected to the baby monitor so that parents can "nurse" the child through the display screen while cooking in the kitchen.

At present, a solution of an intelligent kitchen is already available in the market, for example, in the invention patent with application number CN201811141104.9, an intelligent kitchen system is disclosed, which includes: the system comprises a main control module, a kitchen air quality detection module, a user instruction receiving module, a dish identification module, a communication module, a menu acquisition module, an operation step acquisition module and a reminding module; the kitchen air quality detection module, the user instruction receiving module, the dish identification module, the communication module, the menu acquisition module, the operation step acquisition module and the reminding module are respectively and electrically connected with the main control module; the intelligent kitchen system is in communication connection with the intelligent electrical equipment system and the database through the communication module.

Although the technical scheme realizes that the user can have better experience during cooking, the workload of the user during cooking is reduced, and a good environment is created for the cooking process of the user, the cooking bench control of the user during cooking still has defects, and the problem of inconvenient use of the user caused by automatically opening the stove fire according to the reality cannot be actually solved.

Disclosure of Invention

Therefore, in order to solve the technical problems, an intelligent guidance efficient kitchen cooker control method and device and an intelligent kitchen which are convenient for users to use and can realize an intelligent kitchen are provided.

The technical scheme of the invention is as follows:

a method of intelligently directing high efficiency kitchen hob control, the method comprising:

step S100: acquiring touch information of a current wok of an intelligent wok in a preset specific detection area;

step S200: judging whether the intelligent stove needs to be started or not according to the acquired information that the current wok of the intelligent wok is touched;

step S300: if the intelligent stove starting instruction is judged to be yes, an intelligent stove starting instruction is generated and sent to the intelligent stove, and the intelligent stove starting instruction is used for controlling the intelligent stove to open firepower.

Specifically, step S200: judging whether the intelligent stove needs to be started or not according to the acquired information that the current wok of the intelligent wok is touched; the method specifically comprises the following steps:

step S210: generating current touch profile information touching the intelligent wok according to the acquired current wok touched information of the intelligent wok;

step S220: comparing and analyzing the current touch profile information of the generated touch intelligent wok with prestored standard wok touch profile information, and generating a current similarity comparison analysis value;

step S230: judging whether the generated current similarity contrastive analysis value is larger than a preset standard cooking similarity value or not; wherein, when the judgement is for yes, start intelligent kitchen, if no, do not start intelligent kitchen.

Specifically, the method further comprises:

step S410: detecting in real time according to the acquired information of the touch of the current wok of the intelligent wok and calculating to generate a current touched bearing capacity value born by the intelligent wok when the intelligent wok is touched;

step S420: comparing the current touched bearing capacity value born by the intelligent wok when the intelligent wok is touched through real-time detection and calculation with a preset standard intelligent wok lifting capacity value, and judging whether the current touched bearing capacity value is not smaller than the standard intelligent wok lifting capacity value or not, wherein the standard intelligent wok lifting capacity value is a preset minimum force value born by the intelligent wok when the intelligent wok is lifted;

step S430: if so, acquiring the duration time of the current touched bearing capacity value, namely the duration time of the current touched bearing capacity value;

step S440: comparing the duration time of the current touched bearing capacity value with a preset intelligent wok destacking standard time, and judging whether the duration time of the current touched bearing capacity value is greater than or equal to the preset intelligent wok destacking standard time or not;

step S451: if the intelligent stove fire stopping instruction is judged to be yes, an intelligent stove fire stopping instruction is generated and sent to the intelligent cooking bench, and the intelligent stove fire stopping instruction is used for controlling the intelligent stove to stop fire power.

Specifically, step S440: comparing the duration time of the current touched bearing capacity value with a preset intelligent wok destacking standard time, and judging whether the duration time of the current touched bearing capacity value is greater than or equal to the preset intelligent wok destacking standard time or not; then also comprises the following steps:

step S452: if not, generating an intelligent stove small fire control instruction, sending the intelligent stove small fire control instruction to the intelligent cooking bench, wherein the intelligent stove small fire control instruction is used for controlling the intelligent stove to adjust the firepower to be the preset small fire firepower.

Specifically, step S300: if the intelligent stove is judged to be the fire power, generating an intelligent stove starting instruction, and sending the intelligent stove starting instruction to the intelligent stove, wherein the intelligent stove starting instruction is used for controlling the intelligent stove to start fire power; then also comprises the following steps:

step S610: after the intelligent stove is controlled to start firepower through the intelligent stove starting instruction, generating a range hood starting instruction;

step S620: sending the range hood starting instruction to an intelligent range hood, and controlling the intelligent range hood to start a smoke exhaust function;

step S630: detecting the current actual oil smoke content in a preset current oil smoke detection environment in real time;

step S640: judging whether the current actual oil smoke content in the detected current oil smoke detection environment is larger than a preset standard healthy oil smoke content or not;

step S650: if the current actual oil smoke content is not greater than the preset standard healthy oil smoke content, generating a smoke exhaust machine smoke increasing instruction, sending the smoke exhaust machine smoke increasing instruction to the intelligent smoke exhaust machine, and controlling the intelligent smoke exhaust machine to increase power smoke exhaust until the current actual oil smoke content is not greater than the preset standard healthy oil smoke content.

Concretely, high-efficient kitchen cooking utensils controlling means is instructed to intelligence, the device includes:

the current wok touched information acquisition module is used for acquiring the current wok touched information of the intelligent wok in a preset specific detection area;

the first judgment module is used for judging whether the intelligent cooker needs to be started or not according to the acquired touch information of the current wok of the intelligent wok;

the intelligent stove starting instruction generating module is used for generating an intelligent stove starting instruction if the judgment result is yes, and sending the intelligent stove starting instruction to the intelligent stove, wherein the intelligent stove starting instruction is used for controlling the intelligent stove to open firepower.

Specifically, the first determining module includes:

the current touch profile information generating module is used for generating current touch profile information of the touch intelligent wok according to the acquired touch information of the current wok of the intelligent wok;

the similarity contrast analysis value generation module is used for carrying out contrast analysis on the current touch profile information of the generated touch intelligent wok and prestored standard wok touch profile information and generating a current similarity contrast analysis value;

the second judgment module is used for judging whether the generated current similarity contrastive analysis value is larger than a preset standard cooking similarity value or not; when the judgment is yes, the intelligent stove needs to be started, and when the judgment is no, the intelligent stove does not need to be started.

Specifically, an intelligent kitchen, intelligent kitchen includes high-efficient kitchen cooking utensils controlling means is guided to intelligence, intelligent kitchen still includes intelligent frying pan, intelligent frying pan includes intelligent frying pan control panel, intelligent frying pan control panel includes:

the first touch detection circuit is used for detecting touched information of the intelligent wok;

the touch detection main control circuit is connected with the first touch detection circuit;

the second touch detection circuit is connected with the touch detection main control circuit;

the touch information display circuit is connected with the touch detection main control circuit; the first touch detection circuit comprises a plurality of first independent detection circuits, and each first independent detection circuit is connected with the touch detection main control circuit; each first independent detection circuit comprises a first touch detection chip and a first operational amplifier chip, each first operational amplifier chip is connected with each first touch detection chip, and each first operational amplifier chip is connected with the touch detection main control circuit;

the touch detection main control circuit comprises a touch detection main control chip U4, and the touch detection main control chip U4 is connected with each first operational amplifier chip;

the second touch detection circuit comprises a plurality of second independent detection circuits, and each second independent detection circuit is connected with the touch detection main control chip U4; each second independent detection circuit comprises a second touch detection chip and a second operational amplifier chip, each second operational amplifier chip is connected with each second touch detection chip, and each second operational amplifier chip is connected with the touch detection main control chip U4;

the touch information display circuit comprises a touch information display chip U5, and the touch information display chip U5 is connected with the touch detection main control chip U4.

The computer equipment comprises a memory and a processor, wherein the memory stores a computer program, and the processor realizes the steps of the intelligent guidance efficient kitchen cooker control method when executing the computer program.

In particular, a computer readable storage medium having stored thereon a computer program which, when executed by a processor, implements the steps of the above-described intelligent guided high efficiency kitchen hob control method.

The invention has the following technical effects:

according to the intelligent guidance efficient kitchen cooker control method, the intelligent guidance efficient kitchen cooker control device and the intelligent kitchen, firstly, the current frying pan touched information of the intelligent frying pan in a preset specific detection area is obtained; judging whether the intelligent stove needs to be started or not according to the acquired information that the current wok of the intelligent wok is touched; if judge for yes, then generate intelligent kitchen start instruction, and will intelligent kitchen start instruction send to the intelligent kitchen, intelligent kitchen start instruction is used for control the firepower is opened to the intelligent kitchen to the realization starts the kitchen fire when the user touches the frying pan according to user's actual demand, and then convenience of customers uses, realizes the intelligent design in intelligent kitchen.

Drawings

FIG. 1 is a schematic flow chart of a method for intelligently directing control of an efficient kitchen range in one embodiment;

FIG. 2 is a block diagram of a control device of an intelligent guidance high-efficiency kitchen range in one embodiment;

FIG. 3 is a schematic circuit diagram of the circuit configuration on the control board of the intelligent wok in one embodiment;

FIG. 4 is a circuit schematic of a first touch detection circuit in one embodiment;

FIG. 5 is a schematic circuit diagram of a touch detection main control circuit on the control panel of the intelligent wok in one embodiment;

FIG. 6 is a schematic circuit diagram of a second independent detection circuit on the control board of the intelligent wok in one embodiment;

FIG. 7 is a diagram illustrating an internal structure of a computer device according to an embodiment.

Reference numerals:

100. a first touch detection circuit; 110. a first independent detection circuit; 200. a touch detection master control circuit; 300. a second touch detection circuit; 310. a second independent detection circuit; 400. a touch information display circuit.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

In one embodiment, as shown in fig. 1, there is provided an intelligent guidance high efficiency kitchen hob control method, the method comprising:

step S100: acquiring touch information of a current wok of an intelligent wok in a preset specific detection area;

in this step, when the user touches the intelligent frying pan, the mark is about to begin to fry. Based on the cooking habit of the user, the position of the intelligent frying pan can be adjusted after cooking.

Step S200: judging whether the intelligent stove needs to be started or not according to the acquired information that the current wok of the intelligent wok is touched;

in the step, whether the intelligent stove needs to be started or not is judged according to the touched information of the current wok, and the condition that only the intelligent wok is moved, but not the condition that the intelligent wok needs to be fried is eliminated.

Step S300: if the intelligent stove starting instruction is judged to be yes, an intelligent stove starting instruction is generated and sent to the intelligent stove, and the intelligent stove starting instruction is used for controlling the intelligent stove to open firepower.

In this step, the judgment result is yes, that is, the intelligent cooker needs to be started according to the acquired touch information of the current wok of the intelligent wok, that is, the intelligent cooker really needs to be cooked, instead of moving the intelligent cooker alone, so that an intelligent cooker starting instruction is generated and sent to the intelligent cooker, and the intelligent cooker starting instruction is used for controlling the intelligent cooker to start firepower.

Specifically, the method comprises the steps of firstly acquiring the touch information of the current wok of the intelligent wok in a preset specific detection area; judging whether the intelligent stove needs to be started or not according to the acquired information that the current wok of the intelligent wok is touched; if judge for yes, then generate intelligent kitchen start instruction, and will intelligent kitchen start instruction send to the intelligent kitchen, intelligent kitchen start instruction is used for control the firepower is opened to the intelligent kitchen to the realization starts the kitchen fire when the user touches the frying pan according to user's actual demand, and then convenience of customers uses, realizes the intelligent design in intelligent kitchen.

In one embodiment, step S200: according to the current frying pan of acquireing the intelligence frying pan is judged by touch information whether need start intelligent kitchen, specifically includes:

step S210: generating current touch profile information touching the intelligent wok according to the acquired current wok touched information of the intelligent wok;

in this step, after the touch information of the current wok of the intelligent wok is acquired, the acquired touch information of the current wok of the intelligent wok can be subjected to data extraction, so that the current touch profile information is acquired. The current touch profile information comprises a profile formed by the contact part of the hand of the user and the intelligent wok when the user holds the intelligent wok currently.

Step S220: comparing and analyzing the current touch profile information of the generated touch intelligent wok with prestored standard wok touch profile information, and generating a current similarity comparison analysis value;

in this step, the standard cooking touch profile information is pre-stored. The standard cooking touch profile information is a profile formed by a contact part of a hand of a user and the intelligent cooking pan when the user normally holds the intelligent cooking pan during cooking. That is, when the current touch profile information of the generated touch intelligent wok is the same as the pre-stored standard cooking touch profile information, the intelligent wok is to be cooked or is cooking.

Further, the current similarity contrast analysis value is used for representing the similarity between the generated current touch profile information of the touch intelligent wok and the pre-stored standard wok touch profile information.

Step S230: judging whether the generated current similarity contrastive analysis value is larger than a preset standard cooking similarity value or not; when the judgment is yes, the intelligent stove needs to be started, and when the judgment is no, the intelligent stove does not need to be started.

In this step, when the judgment is yes, that is, the comparison analysis value of the current similarity generated by the judgment is greater than the preset standard cooking similarity value, which indicates that when the user currently holds the intelligent cooking pan and the intelligent cooking pan is held by the normal cooking, the contact contour of the hand of the user and the intelligent cooking pan is the same, and further, at this time, the judgment that the intelligent cooker needs to be started is performed.

When the judgment result is no, the cooking is not about to be done at the moment. Therefore, the intelligent stove does not need to be started.

In one embodiment, the method further comprises:

step S410: detecting in real time according to the acquired information of the touch of the current wok of the intelligent wok and calculating to generate a current touched bearing capacity value born by the intelligent wok when the intelligent wok is touched;

in this step, the user may lift the intelligent frying pan when cooking, or, after cooking, the intelligent frying pan may be separated from the cooking bench, and when these actions occur, the bearing forces borne by the intelligent frying pan are all different.

Therefore, whether the intelligent wok is moved when the user cooks can be judged by detecting and calculating the current touched bearing capacity value born when the intelligent wok is touched.

Step S420: comparing the current touched bearing capacity value born by the intelligent wok when the intelligent wok is touched through real-time detection and calculation with a preset standard intelligent wok lifting capacity value, and judging whether the current touched bearing capacity value is not smaller than the standard intelligent wok lifting capacity value or not, wherein the standard intelligent wok lifting capacity value is a preset minimum force value born by the intelligent wok when the intelligent wok is lifted;

in this step, the lifting force value of the standard intelligent frying pan is preset.

Step S430: if so, acquiring the duration time of the current touched bearing capacity value, and recording the duration time as the duration time of the current touched bearing capacity value;

in this step, the judgment is yes, that is, the judgment is that the current touched bearing capacity value is not smaller than the lifting capacity value of the standard intelligent wok, at this time, the intelligent wok is held up, but it is not known whether the end is away from the cooking bench or is only for turning in the cooking process, so that the time for which the current touched bearing capacity value lasts needs to be obtained, that is, the time for which the current touched bearing capacity value lasts.

Step S440: comparing the duration time of the current touched bearing capacity value with a preset intelligent wok destacking standard time, and judging whether the duration time of the current touched bearing capacity value is greater than or equal to the preset intelligent wok destacking standard time or not;

in this step, it is determined whether the duration of the current touched bearing capacity value is greater than or equal to a preset intelligent pan departure standard time, and it can be determined whether the movement of the cooking bench is for turning over during cooking or whether the cooking end is departing from the cooking bench.

The standard time for the intelligent wok to leave the platform is preset, and if the standard time is set to be 4 s.

Step S451: if the intelligent stove fire stopping instruction is judged to be yes, an intelligent stove fire stopping instruction is generated and sent to the intelligent cooking bench, and the intelligent stove fire stopping instruction is used for controlling the intelligent stove to stop fire power.

In this step, the judgment result is yes, that is, the duration time of the current touched bearing capacity value is judged to be greater than or equal to the preset intelligent frying pan departure standard time, when the intelligent frying pan departure standard time is 4s, that is, the intelligent frying pan is judged to be moved for more than 4s, at this moment, the cooking is finished, so that an intelligent stove fire-off instruction is generated, and the intelligent stove fire-off instruction is sent to the intelligent stove, wherein the intelligent stove fire-off instruction is used for controlling the intelligent stove to turn off the fire.

In one embodiment, step S440: comparing the duration time of the current touched bearing capacity value with a preset intelligent wok destacking standard time, and judging whether the duration time of the current touched bearing capacity value is greater than or equal to the preset intelligent wok destacking standard time or not; then also comprises the following steps:

step S452: if not, generating an intelligent stove small fire control instruction, sending the intelligent stove small fire control instruction to the intelligent cooking bench, wherein the intelligent stove small fire control instruction is used for controlling the intelligent stove to adjust the firepower to be the preset small fire firepower.

In this step, judge no, explain that intelligence frying pan is not the end at this moment and leave the top of a kitchen range, only move intelligent frying pan for the upset of stir-fry in-process, when intelligence frying pan removes, intelligence frying pan is far away from the kitchen fire, generates the little fire control command of intelligent kitchen this moment, and will the little fire control command of intelligence kitchen send to intelligence top of a kitchen range, the little fire control command of intelligence kitchen is used for controlling intelligence kitchen adjustment firepower is predetermined little fire power, makes the user reduce the firepower when intelligence frying pan is far away from the kitchen fire, saves firepower resource, and in the past for a long time, greatly reduces and fry the dish cost, and the environmental protection.

In one embodiment, step S300: if the intelligent stove is judged to be the fire power, generating an intelligent stove starting instruction, and sending the intelligent stove starting instruction to the intelligent stove, wherein the intelligent stove starting instruction is used for controlling the intelligent stove to start fire power; then also comprises the following steps:

step S610: after the intelligent stove is controlled to start firepower through the intelligent stove starting instruction, generating a range hood starting instruction;

in this step, after the intelligent stove is controlled by the intelligent stove starting instruction to start firepower, cooking is started at the moment, and the range hood needs to be started, so that a range hood starting instruction is generated.

Step S620: sending the range hood starting instruction to an intelligent range hood, and controlling the intelligent range hood to start a smoke exhaust function;

in the step, the range hood starting instruction is sent to the intelligent range hood and controls the intelligent range hood to start the oil smoke extraction function, so that the range hood is automatically opened, and convenience is brought to a user.

Step S630: detecting the current actual oil smoke content in a preset current oil smoke detection environment in real time;

in this step, whether current environment is suitable for people to cook can be known through implementing and detecting current actual oil smoke content.

Step S640: judging whether the current actual oil smoke content in the detected current oil smoke detection environment is larger than a preset standard healthy oil smoke content or not;

in the step, the standard healthy oil smoke content is preset, and when the standard healthy oil smoke content is less than or equal to the standard healthy oil smoke content, the cooking device is suitable for cooking dishes of a user.

Step S650: if the current actual oil smoke content is not greater than the preset standard healthy oil smoke content, generating a smoke exhaust machine smoke increasing instruction, sending the smoke exhaust machine smoke increasing instruction to the intelligent smoke exhaust machine, and controlling the intelligent smoke exhaust machine to increase power smoke exhaust until the current actual oil smoke content is not greater than the preset standard healthy oil smoke content.

If the judgment is yes, namely the current actual oil smoke content in the current oil smoke detection environment obtained by the judgment and detection is larger than the preset standard healthy oil smoke content, the current environment is not suitable for cooking by a user and needs to purify air, so that a smoke exhaust ventilator smoke increasing instruction is generated and sent to the intelligent smoke exhaust ventilator, and the smoke exhaust ventilator smoke increasing instruction is used for controlling the intelligent smoke exhaust ventilator to increase power to exhaust the oil smoke until the current actual oil smoke content is not larger than the preset standard healthy oil smoke content, so that the body health of the user in the cooking process is ensured.

In one embodiment, as shown in fig. 2, an intelligent guidance high efficiency kitchen hob control device, said device comprising:

the current wok touched information acquisition module is used for acquiring the current wok touched information of the intelligent wok in a preset specific detection area;

the first judgment module is used for judging whether the intelligent cooker needs to be started or not according to the acquired touch information of the current wok of the intelligent wok;

the intelligent stove starting instruction generating module is used for generating an intelligent stove starting instruction if the judgment result is yes, and sending the intelligent stove starting instruction to the intelligent stove, wherein the intelligent stove starting instruction is used for controlling the intelligent stove to open firepower.

In one embodiment, the first determining module comprises:

the current touch profile information generating module is used for generating current touch profile information of the touch intelligent wok according to the acquired touch information of the current wok of the intelligent wok;

the similarity contrast analysis value generation module is used for carrying out contrast analysis on the current touch profile information of the generated touch intelligent wok and prestored standard wok touch profile information and generating a current similarity contrast analysis value;

the second judgment module is used for judging whether the generated current similarity contrastive analysis value is larger than a preset standard cooking similarity value or not; when the judgment is yes, the intelligent stove needs to be started, and when the judgment is no, the intelligent stove does not need to be started.

In one embodiment, the first determining module is further configured to perform the following steps:

detecting in real time according to the acquired information of the touch of the current wok of the intelligent wok and calculating to generate a current touched bearing capacity value born by the intelligent wok when the intelligent wok is touched;

comparing the current touched bearing capacity value born by the intelligent wok when the intelligent wok is touched through real-time detection and calculation with a preset standard intelligent wok lifting capacity value, and judging whether the current touched bearing capacity value is not smaller than the standard intelligent wok lifting capacity value or not, wherein the standard intelligent wok lifting capacity value is a preset minimum force value born by the intelligent wok when the intelligent wok is lifted;

if so, acquiring the duration time of the current touched bearing capacity value, namely the duration time of the current touched bearing capacity value;

comparing the duration time of the current touched bearing capacity value with a preset intelligent wok destacking standard time, and judging whether the duration time of the current touched bearing capacity value is greater than or equal to the preset intelligent wok destacking standard time or not;

if the intelligent stove fire stopping instruction is judged to be yes, an intelligent stove fire stopping instruction is generated and sent to the intelligent cooking bench, and the intelligent stove fire stopping instruction is used for controlling the intelligent stove to stop fire power.

In one embodiment, the first determining module is further configured to perform the following steps: if not, generating an intelligent stove small fire control instruction, sending the intelligent stove small fire control instruction to the intelligent cooking bench, wherein the intelligent stove small fire control instruction is used for controlling the intelligent stove to adjust the firepower to be the preset small fire firepower.

In one embodiment, the first determining module is further configured to perform the following steps: after the intelligent stove is controlled to start firepower through the intelligent stove starting instruction, generating a range hood starting instruction;

sending the range hood starting instruction to an intelligent range hood, and controlling the intelligent range hood to start a smoke exhaust function;

detecting the current actual oil smoke content in a preset current oil smoke detection environment in real time;

judging whether the current actual oil smoke content in the detected current oil smoke detection environment is larger than a preset standard healthy oil smoke content or not;

if the current actual oil smoke content is not greater than the preset standard healthy oil smoke content, generating a smoke exhaust machine smoke increasing instruction, sending the smoke exhaust machine smoke increasing instruction to the intelligent smoke exhaust machine, and controlling the intelligent smoke exhaust machine to increase power smoke exhaust until the current actual oil smoke content is not greater than the preset standard healthy oil smoke content.

In one embodiment, as shown in fig. 3, an intelligent kitchen, the intelligent kitchen comprises the intelligent guidance efficient kitchen range control device, the intelligent kitchen further comprises an intelligent wok, the intelligent wok comprises an intelligent wok control panel, the intelligent wok control panel comprises:

the first touch detection circuit 100, the first touch detection circuit 100 is used for detecting touched information of the intelligent wok;

the touch detection main control circuit 200 is connected with the first touch detection circuit 100, and the touch detection main control circuit 200 is configured to receive touched information of the touched intelligent wok detected by the first touch detection circuit and perform information processing on the touched information of the touched intelligent wok;

the second touch detection circuit 300, the second touch detection circuit 300 is connected to the touch detection main control circuit 200, and the second touch detection circuit is used for detecting touched information of the intelligent wok;

the touch information display circuit 400 is connected with the touch detection main control circuit 200, and the touch information display circuit 400 is used for receiving and displaying the information to be displayed sent by the touch detection main control circuit.

Specifically, the first touch detection circuit 100 includes a plurality of first independent detection circuits 110, and each of the first independent detection circuits 110 is connected to the touch detection main control circuit 200; each of the first independent detection circuits 110 includes a first touch detection chip and a first operational amplifier chip, each of the first operational amplifier chips is connected to each of the first touch detection chips, and each of the first operational amplifier chips is connected to the touch detection main control circuit 200.

Further, in this embodiment, the number of the first independent detection circuits 110 is three, and the first touch detection chips in the three first independent detection circuits 110 are U1, U2 and U3, respectively. The first operational amplifier chips in the three first independent detection circuits 110 are U11A, U11B, U12A, U12B, U13A and U13B, respectively.

In this embodiment, the detection of the user TOUCH is realized through the detection terminals TOUCH1-TOUCH3 connected to the first pin in the first TOUCH detection chip.

Then, the first touch detection chip amplifies the detected signal through the first operational amplifier chip, so as to realize accurate transmission of the signal, and transmits the signal to the touch detection main control circuit 200 for processing by the touch detection main control circuit 200.

Specifically, the touch detection main control circuit 200 includes a touch detection main control chip U4, and the touch detection main control chip U4 is connected to each of the first operational amplifier chips.

Further, the output terminals TOUT-1, TOUT-2, TOUT-3, TOUT-4, TOUT-5 and TOUT-6 of each of the first operational amplifier chips are respectively connected with the eleventh pin to the sixteenth pin of the touch detection main control chip U4 through the output terminals TOUT-1, TOUT-2, TOUT-3, TOUT-4, TOUT-5 and TOUT-6 of the first operational amplifier chip.

The model of each first operational amplifier chip is LM 324.

Specifically, the second touch detection circuit 300 includes a plurality of second independent detection circuits 310, and each of the second independent detection circuits 310 is connected to the touch detection main control chip U4; each of the second independent detection circuits 310 includes a second touch detection chip and a second operational amplifier chip, each of the second operational amplifier chips is connected to each of the second touch detection chips, and each of the second operational amplifier chips is connected to the touch detection main control chip U4.

Further, in the present embodiment, the number of the second independent detecting circuits 310 is three, and the numbers of the second touch detecting chips in the second independent detecting circuits 310 are U7, U8, and U9. The numbers of the second operational amplifier chips in the second independent detection circuit 310 are respectively U71A, U81A and U91A. The output terminals of each second operational amplifier chip in the second independent detection circuit 310 are TOUT-7, TOUT-8 and TOUT-9, respectively. The output terminals TOUT-7, TOUT-8 and TOUT-9 of the second operational amplifier chips are respectively connected to the thirtieth pin to the thirty-second pin of the touch detection main control chip U4.

In this embodiment, each of the second operational amplifier chips has a model LM358DR 2G.

In another embodiment of the present invention, in order to generate the accuracy of the current touch profile information touching the intelligent wok according to the obtained touch information of the intelligent wok, the number of the second touch detection circuits 300 and the number of the first touch detection circuits 100 are multiple, and meanwhile, the number of the second independent detection circuits 310 and the number of the first independent detection circuits 110 are multiple, so as to realize multi-point acquisition, so as to obtain the accurate current touch profile information.

Through setting up second operational amplifier chip with first operational amplifier chip has realized two kinds of operational amplifier, conveniently distinguishes each signal, promotes detection efficiency.

Specifically, the touch information display circuit 400 includes a touch information display chip U5, and the touch information display chip U5 is connected to the touch detection main control chip U4. Furthermore, the touch information display chip U5 is used for displaying information, so that the user can watch the information conveniently, the user experience is improved, and the intellectualization of the intelligent kitchen is also improved.

In one embodiment, as shown in fig. 2, a computer device comprises a memory storing a computer program and a processor implementing the steps of the above-described intelligent guided high efficiency kitchen hob control method when the processor executes the computer program.

A computer-readable storage medium having stored thereon a computer program which, when executed by a processor, carries out the steps of the above-described intelligent guided high-efficiency kitchen hob control method.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware instructions of a computer program, which can be stored in a non-volatile computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in the embodiments provided herein may include non-volatile and/or volatile memory, among others. Non-volatile memory can include read-only memory (ROM), Programmable ROM (PROM), Electrically Programmable ROM (EPROM), Electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), Dynamic RAM (DRAM), Synchronous DRAM (SDRAM), Double Data Rate SDRAM (DDRSDRAM), Enhanced SDRAM (ESDRAM), Synchronous Link DRAM (SLDRAM), Rambus Direct RAM (RDRAM), direct bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM).

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.