CN110822521A - Smoke stove control method and device, smoke stove system, computer equipment and storage medium - Google Patents

Abstract

The application relates to a smoke stove control method and device, a smoke stove system, computer equipment and a storage medium, wherein the smoke machine and the stove are controlled in a voice control mode, and when a starting voice instruction sent by a user is received, the smoke machine and the stove can be controlled to be started simultaneously according to the starting voice instruction and a preset voice database. When a first voice instruction sent by a user is received, the adjustment operation of the wind speed of the range hood and the firepower of the stove can be simultaneously realized according to the first voice instruction and the preset voice database. Through above-mentioned scheme, the user directly carries out cigarette kitchen control through voice command, need not leave the hand and carry out the control of cigarette machine and cooking utensils when culinary art, guarantees that the culinary art operation can not be interrupted to, the user can realize the control of cigarette machine and cooking utensils simultaneously through voice command of one, has very strong operation convenience.

Description

Smoke stove control method and device, smoke stove system, computer equipment and storage medium

Technical Field

The application relates to the technical field of household appliances, in particular to a smoke stove control method and device, a smoke stove system, computer equipment and a storage medium.

Background

With the rapid development of scientific technology, various household devices are developing towards intellectualization rapidly, so that the daily life of people becomes more convenient. The smoke cooker is a device which is formed by a smoke machine and a cooker and used for people to perform various cooking operations, and the smoke machine can process the oil smoke and other technologies generated during cooking to ensure that a user is in a healthy cooking environment.

The smoke machine and the cooking stove respectively realize the control of the wind speed of the smoke machine and the adjustment of the firepower of the cooking stove through adjusting keys or buttons arranged on the smoke machine and the cooking stove in the working process, thereby meeting the requirements of different cooking operations. However, users often control cooking appliances with both hands during cooking, and if the range hood and the range are adjusted during cooking, the cooking operation will be interrupted, and the conventional smoke range has the disadvantage of poor convenience in operation.

Disclosure of Invention

In view of this, it is necessary to provide a smoke oven control method, device, smoke oven system, computer device, and storage medium for solving the problem of poor convenience in operation of the conventional smoke oven.

A method of smoke range control, the method comprising: receiving a starting-up voice instruction sent by a user; controlling the range hood and the kitchen range to be started and operated simultaneously according to the starting voice instruction and a preset voice database; and simultaneously adjusting the firepower of the cooker and the air speed of the range hood according to a first voice instruction sent by a user and the preset voice database.

In one embodiment, the step of controlling the range hood and the kitchen range to be simultaneously started and operated according to the starting voice instruction and the preset voice database includes: performing matching analysis according to the starting voice instruction and a preset voice database to obtain a starting control signal; and controlling the range hood and the kitchen range to be started and operated simultaneously according to the starting control signal.

In one embodiment, the first voice command includes a small fire voice command, a medium fire voice command, and a large fire voice command.

In one embodiment, the step of simultaneously adjusting the fire power of the cooker and the wind speed of the range hood according to the first voice instruction sent by the user and the preset voice database comprises: when a small fire voice instruction sent by a user is received, performing matching analysis according to the preset voice database to obtain a small fire control signal and a low wind control signal, controlling the cooker to operate at a first fire power according to the small fire control signal, and controlling the range hood to operate at a first wind speed according to the low wind control signal; when a medium fire voice instruction sent by a user is received, performing matching analysis according to the preset voice database to obtain a medium fire control signal and a medium wind control signal, controlling the kitchen range to operate at a second fire power according to the medium fire control signal, and controlling the range hood to operate at a second wind speed according to the medium wind control signal; when a fire voice instruction sent by a user is received, performing matching analysis according to the preset voice database to obtain a fire control signal and a high wind control signal, controlling the kitchen range to operate at a third fire power according to the fire control signal, and controlling the range hood to operate at a third wind speed according to the high wind control signal; the second fire is higher than the first fire, the third fire is higher than the second fire, the second wind speed is higher than the first wind speed, and the third wind speed is higher than the second wind speed.

In one embodiment, after the step of controlling the range hood and the kitchen range to be simultaneously started and operated according to the starting voice instruction and the preset voice database, the method further includes: and adjusting the wind speed of the range hood according to a second voice instruction sent by the user and the preset voice database.

In one embodiment, the second voice command includes a low wind voice command, a medium wind voice command, and a high wind voice command.

In one embodiment, the step of adjusting the wind speed of the range hood according to the first voice command sent by the user and the preset voice database comprises the following steps: when a low wind voice instruction sent by a user is received, performing matching analysis according to the preset voice database to obtain a low wind control signal, and controlling the cigarette machine to operate at a first wind speed according to the low wind control signal; when a stroke voice instruction sent by a user is received, performing matching analysis according to the preset voice database to obtain a stroke control signal, and controlling the cigarette making machine to operate at a second wind speed according to the stroke control signal; when a high wind voice instruction sent by a user is received, performing matching analysis according to the preset voice database to obtain a high wind control signal, and controlling the cigarette machine to operate at a third wind speed according to the high wind control signal; the second wind speed is greater than the first wind speed, and the third wind speed is greater than the second wind speed.

In one embodiment, after the step of controlling the range hood and the kitchen range to be simultaneously started and operated according to the starting voice instruction and the preset voice database, the method further includes: and controlling the kitchen range to be shut down according to a shutdown voice instruction sent by a user and the preset voice database, and controlling the range hood to be shut down in a delayed manner.

A smoke cooker control device, the device comprising: the voice receiving module is used for receiving a starting-up voice instruction sent by a user; the starting control module is used for controlling the smoke machine and the kitchen range to be started and operated simultaneously according to the starting voice instruction and a preset voice database; and the comprehensive adjusting module is used for adjusting the firepower of the cooker and the air speed of the range hood simultaneously according to a first voice instruction sent by a user and the preset voice database.

A smoke stove control system comprises a voice control device, a smoke machine and a stove, wherein the smoke machine and the stove are respectively connected with the voice control device, and the voice control device is used for controlling a smoke stove according to the method.

A computer device comprising a memory storing a computer program and a processor implementing the steps of the above method when executing the computer program.

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 above-mentioned method.

According to the smoke stove control method and device, the smoke stove system, the computer equipment and the storage medium, the smoke machine and the stove are controlled in a voice control mode, and when the starting voice instruction sent by a user is received, the smoke machine and the stove can be controlled to be started simultaneously according to the starting voice instruction and the preset voice database. When a first voice instruction sent by a user is received, the adjustment operation of the wind speed of the range hood and the firepower of the stove can be simultaneously realized according to the first voice instruction and the preset voice database. Through above-mentioned scheme, the user directly carries out cigarette kitchen control through voice command, need not leave the hand and carry out the control of cigarette machine and cooking utensils when culinary art, guarantees that the culinary art operation can not be interrupted to, the user can realize the control of cigarette machine and cooking utensils simultaneously through voice command of one, has very strong operation convenience.

Drawings

FIG. 1 is a schematic flow chart of a control method for a cigarette making machine according to an embodiment;

FIG. 2 is a schematic diagram of a control system of the cigarette maker in one embodiment;

FIG. 3 is a schematic flow chart of a control method of the cigarette making machine in another embodiment;

FIG. 4 is a schematic view of a linkage control flow of a range hood and a cooking appliance in one embodiment;

FIG. 5 is a diagram illustrating a relationship between a voice command and a control signal according to an embodiment;

FIG. 6 is a schematic flow chart of a control method for a range hood in yet another embodiment;

FIG. 7 is a schematic diagram of an embodiment of an independent control flow of a range hood;

FIG. 8 is a schematic flow chart of a control method for a range hood in yet another embodiment;

FIG. 9 is a schematic diagram of a control device for a cigarette maker according to an embodiment;

FIG. 10 is a schematic structural view of a control device of a cigarette making machine in another embodiment;

figure 11 is a schematic structural view of a control system of a cigarette making machine in another embodiment;

FIG. 12 is a diagram illustrating an internal structure of a computer device according to an embodiment.

Detailed Description

To facilitate an understanding of the present application, the present application will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present application are illustrated in the accompanying drawings. This application may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Referring to fig. 1, a method for controlling a range includes steps S100, S200, and S300.

And S100, receiving a starting-up voice instruction sent by a user.

Specifically, the smoke stove is a smoke machine and a stove, the stove can provide a heat source for cooking, and the smoke machine can timely discharge oil smoke and the like generated when a user uses the stove to cook, so that indoor pollution is avoided. This application sets up a voice control device in the cigarette kitchen system, can realize the voice command who sends according to the user through voice control device, and the operation that control is carried out to cigarette machine and cooking utensils to final output and the corresponding control signal of voice command. It should be noted that the type of the power-on voice command is not unique, and in order to ensure the accuracy of the voice control, the voice command should be as concise as possible, and in one embodiment, the power-on voice command is "power on", that is, in the actual smoke range control operation, the user only says "power on", that is, the user sends the power-on voice command. In other embodiments, the voice command may be of other types, such as "power on" or the like, as long as it can be successfully recognized by the voice control device.

It can be understood that the arrangement position of the voice control device is not exclusive, and in one embodiment, the voice control device can be arranged on the range hood or the cooker in the form of a control panel, so that the space can be effectively saved. In another embodiment, the voice control device can be arranged independently from the smoke machine and the cooker, as long as the voice command sent by the user in the cooking process can be received by the voice control device.

Further, referring to fig. 2, in an embodiment, the voice control apparatus includes a sound collector, a voice recognizer, a memory, a controller, and the like, and the sound collector may further be a microphone, and the like. In the actual work engineering, after the microphone of the voice control device collects the sound, the sound is sent to the voice recognizer for recognition processing, and after the information related to the startup is obtained, the startup voice command sent by the user is received. It is understood that the structure of the voice control device is not limited to the embodiment shown in fig. 2, for example, in an embodiment, the functions of the memory and the controller may be integrated into a processor, and the microphone collects the sound and then directly transmits the sound to the voice recognizer for recognition, and then the processor is matched with a voice database prestored in the memory to obtain a control signal to implement the corresponding control signal.

And S200, controlling the range hood and the kitchen range to be simultaneously started to operate according to the starting voice instruction and the preset voice database.

Specifically, the preset voice database stores a plurality of voice commands and control signals corresponding to the voice commands respectively. After the voice control device receives the starting voice instruction, the starting voice instruction and a preset voice database are analyzed, and the smoke machine and the cooking utensil are controlled to be started to operate simultaneously according to the analysis result. The range hood and the cooker are simultaneously powered on to enter a standby state, so that the range hood and the cooker can timely enter the working state when needing to work in the follow-up process.

And step S300, simultaneously adjusting the firepower of the cooker and the air speed of the range hood according to the first voice instruction sent by the user and a preset voice database.

Specifically, under the condition that cigarette machine and cooking utensils all start, will need the cooking utensils to open when the user cooks, provide the heat source, will guarantee simultaneously that the fan opens the operation, will produce in real time oil smoke etc. and discharge, guarantee that indoor environment is not polluted. Therefore, the user can send out a first voice command, and the range hood and the cooker are controlled to simultaneously start to operate through the first voice command. In this embodiment, the preset voice database has two control signals corresponding to the first voice instruction, and the two control signals are respectively used for controlling the range hood and the cooker to work, namely, after the voice control device receives the first voice instruction, the linkage control of the range hood and the cooker can be realized, so that the range hood and the cooker work simultaneously.

It can be understood that the type of the first voice instruction is not unique, in one embodiment, the first voice instruction may be a fire voice instruction related to a cooker, under the fire voice instruction, the voice control device can realize linkage control of the range hood and the cooker, a user can directly adjust the fire of the cooker to the fire size consistent with the user requirement through the fire voice instruction, and the wind speed of the range hood can be controlled in a certain size in a self-adaptive manner. Under the embodiment, if the wind speed of the range hood needs to be controlled, a user sends a wind speed voice instruction after the firepower voice instruction, and the wind speed of the range hood can be adjusted independently. In another embodiment, the first voice instruction can also be a wind speed instruction related to a range hood, under the wind speed voice instruction, the voice control device can realize linkage control over the range hood and the cooker, a user can directly adjust the wind speed of the range hood to a wind speed size consistent with the requirement of the user through the wind speed voice instruction, and meanwhile, the fire power of the cooker can be controlled to a certain size in a self-adaptive mode. Under the embodiment, if the firepower of the cooker is further required to be controlled, a user sends a firepower voice instruction after the wind speed voice instruction, and the firepower of the cooker can be independently adjusted.

In one embodiment, referring to fig. 3, step S200 includes step S210 and step S220.

Step S210, carrying out matching analysis according to the startup voice instruction and a preset voice database to obtain a startup control signal.

Specifically, after the voice control device receives a power-on voice command sent by a user, the power-on voice command is matched with a voice database prestored in a controller of the voice control device, so as to obtain a power-on control signal corresponding to the power-on voice command in the voice database.

And step S220, controlling the range hood and the kitchen range to be simultaneously started to operate according to the starting control signal.

Specifically, after the voice control device obtains the start-up control instruction according to the preset voice database, the controller of the voice control device sends the start-up control signal to the range hood and the cooker at the same time, and the range hood and the cooker are controlled to be powered on to enter the standby state at the same time.

In one embodiment, the first voice command includes a small fire voice command, a medium fire voice command, and a large fire voice command.

Specifically, in this embodiment, the first voice instruction is a fire voice instruction, and when the range and the range hood can both realize three different levels of operating gears, each level is controlled by a fire voice instruction, which is a small fire voice instruction, a medium fire voice instruction, and a large fire voice instruction. For each firepower voice instruction, the voice control device correspondingly outputs a signal for controlling firepower of the cooker and a signal for controlling the air speed of the range hood, and linkage control of the range hood and the cooker is achieved.

It should be noted that, in other embodiments, the wind speed of the smoke machine and the fire of the cooker may be set to other levels, that is, a plurality of fire voice commands of different levels may be set, as long as the fire voice command of each level can correspondingly realize the linkage control of the smoke machine and the cooker. It can be understood that, in another implementation, when the first voice command is a wind speed voice command and the range hood are capable of realizing three different levels of operating gears, each level is controlled by a corresponding wind speed voice command, namely a low wind voice command, a medium wind voice command and a high wind voice command. For each wind speed voice instruction, the voice control device correspondingly outputs a signal for controlling the firepower of the cooker and a signal for controlling the wind speed of the range hood, so that the linkage control of the range hood and the cooker is realized.

Referring to fig. 4, in one embodiment, step S300 includes step S310, step S320, and step S330.

And S310, when a small fire voice command sent by a user is received, performing matching analysis according to a preset voice database to obtain a small fire control signal and a low wind control signal, controlling the cooker to operate at a first fire power according to the small fire control signal, and controlling the range hood to operate at a first wind speed according to the low wind control signal.

Specifically, when the first voice instruction is a fire voice instruction, the voice controller performs matching analysis according to a small fire voice instruction in the fire voice instruction and a preset voice database to obtain a small fire control signal and a low wind control signal corresponding to the small fire voice instruction in the preset voice database. Then the controller sends the small fire control signal to the kitchen range simultaneously, sends the low wind control signal to the cigarette machine to control the kitchen range to operate with first firepower, and the cigarette machine also operates with first wind speed simultaneously. Referring to fig. 5, when the user says "small fire", the voice control device outputs a small fire control signal to control the cooking appliance to adjust the small fire (i.e. to operate at the gear corresponding to the first fire), and outputs a low wind control signal to control the range hood to adjust the low wind (i.e. to operate at the gear corresponding to the first wind speed). It can be understood that the specific form of the voice command is not unique, and in other embodiments, when a user says a command of 'small fire operation' and the like, the corresponding small fire control signal is obtained through matching of the preset voice database to control the cooker to turn small fire, and the low air control signal is obtained to control the range hood to turn low air and the like.

And S320, when a medium fire voice instruction sent by a user is received, performing matching analysis according to a preset voice database to obtain a medium fire control signal and a medium wind control signal, controlling the kitchen range to operate at a second fire power according to the medium fire control signal, and controlling the range hood to operate at a second wind speed according to the medium wind control signal.

Specifically, when the first voice instruction is a fire voice instruction, the voice controller performs matching analysis according to a fire voice instruction in the fire voice instruction and a preset voice database to obtain a fire control signal and a breeze control signal corresponding to the fire voice instruction in the preset voice database. Then the controller simultaneously sends the medium fire control signal to the kitchen range and sends the medium fire control signal to the range hood, so that the range hood is controlled to operate at a second wind speed while operating at a second fire power. Referring to fig. 5, when the user says "medium fire", the voice control device outputs the medium fire control signal to control the cooker to adjust medium fire (i.e. operate at the gear corresponding to the second fire), and outputs the medium fire control signal to control the ventilator to adjust medium fire (i.e. operate at the gear corresponding to the second wind speed). It can be understood that the specific form of the voice command is not unique, and in other embodiments, when a user says a command such as "medium fire operation", a preset voice database is matched to obtain a corresponding medium fire control signal to control the cooker to adjust medium fire, and simultaneously obtain a stroke control signal to control the cooker to adjust stroke, and the like.

And S330, when a fire voice instruction sent by a user is received, performing matching analysis according to a preset voice database to obtain a fire control signal and a high wind control signal, controlling the kitchen range to operate at a third fire power according to the fire control signal, and controlling the range hood to operate at a third wind speed according to the high wind control signal.

Specifically, the second fire is higher than the first fire, the third fire is higher than the second fire, the second wind speed is higher than the first wind speed, and the third wind speed is higher than the second wind speed. When the first voice instruction is a firepower voice instruction, the voice controller performs matching analysis according to a firepower voice instruction in the firepower voice instruction and a preset voice database to obtain a firepower control signal and a high wind control signal corresponding to the firepower voice instruction in the preset voice database. Then the controller simultaneously sends the big fire control signal to the kitchen range and sends the high wind control signal to the range hood, so that the kitchen range is controlled to operate at a third fire power and the range hood also operates at a third wind speed. Referring to fig. 5, when the user says "big fire", the voice control device outputs a big fire control signal to control the kitchen range to adjust big fire (i.e. to operate at a gear corresponding to the third fire), and outputs a high wind control signal to control the range hood to adjust high wind (i.e. to operate at a gear corresponding to the third wind speed). It can be understood that the specific form of the voice command is not unique, and in other embodiments, when a user says a command of 'big fire operation' and the like, the corresponding big fire control signal is obtained through matching of the preset voice database to control the cooker to turn big fire, and meanwhile, the high wind control signal is obtained to control the range hood to turn high wind and the like.

Referring to fig. 6, in an embodiment, after step S200, the method further includes step S400.

And S400, adjusting the wind speed of the range hood according to a second voice instruction sent by the user and a preset voice database.

Specifically, in this embodiment, an individual control operation of the wind speed of the range hood is further provided, so that the situation that the wind speed of the range hood does not meet the requirements of users under the condition that the firepower of the cooker is suitable during linkage control is avoided. It can be understood that step S400 may be before step S300, or may be after step S300, that is, after the user performs linkage control on the range hood and the cooker, the second voice instruction is used to implement readjustment on the range hood, so that the range hood finally operates at the wind speed corresponding to the second voice instruction. Or before linkage control is carried out on the range hood and the kitchen range, firstly, wind speed adjustment operation is carried out on the range hood, then linkage control is carried out according to the first voice instruction, and finally the wind speed of the range hood is consistent with the wind speed corresponding to the first voice intelligence, namely the wind speed of the range hood is consistent with the wind speed corresponding to the final voice instruction.

In one embodiment, the second voice command includes a low wind voice command, a medium wind voice command, and a high wind voice command.

Specifically, in this embodiment, in the case that the first voice instruction is a fire voice instruction, the second voice instruction may adopt a wind speed voice instruction related to the range hood, and the separate control operation of the range hood may be realized by the wind speed voice instruction. When the range hood has three different working gears, each gear corresponds to a fan voice instruction, namely a low wind voice instruction, a medium wind voice instruction and a high wind voice instruction. For each wind speed voice instruction, the voice control device correspondingly outputs a signal for controlling the wind speed of the range hood, and the range hood is controlled independently. It can be understood that, for the embodiment in which the first voice instruction is the wind speed voice instruction, the corresponding second voice instruction may be set as a fire-related voice instruction, for example, a fire voice instruction, and further, the cooker may be controlled separately according to the fire voice instruction, and the specific manner is similar to that in the previous embodiment in which the second voice instruction is the wind speed voice instruction, and is not described herein again.

Referring to fig. 7, in one embodiment, step S400 includes step S410, step S420, and step S430.

And S410, when a low wind voice command sent by a user is received, performing matching analysis according to a preset voice database to obtain a low wind control signal, and controlling the range hood to operate at a first wind speed according to the low wind control signal.

Specifically, after the step S400 is located after the step S300, for explanation, after the voice controller receives the low wind voice command sent by the user, a low wind control signal for adjusting the wind speed of the range hood is obtained according to the preset voice database, and the controller of the voice control device controls the range hood to operate at the first wind speed according to the low wind control signal. The wind speed detector of the range hood can detect the wind speed, and if the range hood is detected to be in a first wind speed running state, the wind speed is maintained to be unchanged; otherwise, the wind speed of the smoke machine is adjusted to the first wind speed through the wind speed adjuster. Referring to fig. 5, when the user says "low wind", the voice controller receives and recognizes the low wind, matches the received and recognized low wind with the preset voice database to obtain a low wind control signal, and controls the range hood to turn down the wind according to the low wind control signal, that is, controls the range hood to operate at the first wind speed.

And step S420, when a stroke voice instruction sent by a user is received, performing matching analysis according to a preset voice database to obtain a stroke control signal, and controlling the range hood to operate at a second wind speed according to the stroke control signal.

Similarly, after the step S400 is located after the step S300, for explanation, after the voice controller receives the wind stroke voice command sent by the user, the wind stroke control signal for adjusting the wind speed of the range hood is obtained according to the preset voice database in a matching manner, and the controller of the voice control device controls the range hood to operate at the second wind speed according to the wind stroke control signal. The wind speed detector of the range hood can detect the wind speed, and if the range hood is detected to be in the second wind speed running state, the wind speed is kept unchanged; otherwise, the wind speed of the smoke machine is adjusted to a second wind speed through the wind speed adjuster. Referring to fig. 5, when the user says "stroke", the voice controller receives and recognizes the stroke, matches the stroke with the preset voice database to obtain a stroke control signal, and controls the cigarette making machine to adjust the stroke according to the stroke control signal, that is, controls the cigarette making machine to operate at the second wind speed.

And step S430, when a high wind voice command sent by a user is received, performing matching analysis according to a preset voice database to obtain a high wind control signal, and controlling the range hood to operate at a third wind speed according to the high wind control signal.

Specifically, the second wind speed is greater than the first wind speed, and the third wind speed is greater than the second wind speed. Similarly, after the step S400 is located after the step S300, for explanation, after the voice controller receives the high wind voice command sent by the user, the high wind control signal for adjusting the wind speed of the cigarette machine is obtained according to the preset voice database, and the controller of the voice control device controls the cigarette machine to operate at the third wind speed according to the high wind control signal. The wind speed detector of the range hood can detect the wind speed, and if the range hood is detected to be in a third wind speed running state, the wind speed is kept unchanged; otherwise, the wind speed of the smoke machine is adjusted to a third wind speed through the wind speed adjuster. Referring to fig. 5, when the user says "high wind", the voice controller receives and recognizes the high wind, matches the high wind with the preset voice database to obtain the high wind control signal, and controls the range hood to adjust the high wind according to the high wind control signal, that is, controls the range hood to operate at a third wind speed.

Referring to fig. 8, in an embodiment, after step S200, the method further includes step S500.

And S500, controlling the kitchen range to be shut down according to a shutdown voice instruction sent by a user and a preset voice database, and controlling the range hood to be shut down in a delayed manner.

Specifically, when the cooking of the user is finished or the cooking range and the range hood do not need to be used under other conditions, the user can control the cooking range and the range hood to be closed according to the shutdown instruction. Referring to fig. 5, when the user says "shutdown" (that is, the user sends a shutdown voice command), the voice controller performs processing such as collection and recognition, and then performs matching analysis on the shutdown voice command and a preset voice database to obtain a shutdown control signal to control the cooker to be immediately shut down, and meanwhile, the controller of the voice control device starts timing, and after the timing reaches a preset duration, the controller sends the shutdown control signal to the cooker hood to control the cooker hood to be shut down in a delayed manner. In this embodiment, the cigarette machine is controlled to time delay shutdown to guarantee that the oil smoke that produces in the culinary art process can be absorbed by the cigarette machine completely, avoid environmental pollution.

According to the control method of the smoke stove, the smoke machine and the stove are controlled in a voice control mode, and when the starting voice instruction sent by a user is received, the smoke machine and the stove can be controlled to be started simultaneously according to the starting voice instruction and the preset voice database. When a first voice instruction sent by a user is received, the adjustment operation of the wind speed of the range hood and the firepower of the stove can be simultaneously realized according to the first voice instruction and the preset voice database. Through above-mentioned scheme, the user directly carries out cigarette kitchen control through voice command, need not leave the hand and carry out the control of cigarette machine and cooking utensils when culinary art, guarantees that the culinary art operation can not be interrupted to, the user can realize the control of cigarette machine and cooking utensils simultaneously through voice command of one, has very strong operation convenience.

Referring to fig. 9, a smoke range control device includes: a voice receiving module 100, a startup control module 200 and a comprehensive regulation module 300. The voice receiving module 100 is configured to receive a power-on voice instruction sent by a user; the starting control module 200 is used for controlling the range hood and the kitchen range to be started and operated simultaneously according to the starting voice instruction and the preset voice database; the comprehensive adjusting module 300 simultaneously adjusts the firepower of the cooker and the air speed of the range hood according to the first voice instruction sent by the user and the preset voice database.

In one embodiment, the power-on control module 200 is further configured to perform matching analysis according to the power-on voice instruction and a preset voice database to obtain a power-on control signal; and controlling the range hood and the kitchen range to be started and operated simultaneously according to the starting control signal.

In one embodiment, the comprehensive adjusting module 300 is further configured to, when a small fire voice command sent by a user is received, perform matching analysis according to a preset voice database to obtain a small fire control signal and a low wind control signal, control the cooker to operate at a first fire power according to the small fire control signal, and control the range hood to operate at a first wind speed according to the low wind control signal; when a medium fire voice instruction sent by a user is received, matching analysis is carried out according to a preset voice database to obtain a medium fire control signal and a medium wind control signal, the cooker is controlled to operate at a second fire power according to the medium fire control signal, and a range hood is controlled to operate at a second wind speed according to the medium wind control signal; when a fire voice instruction sent by a user is received, matching analysis is carried out according to a preset voice database to obtain a fire control signal and a high wind control signal, the cooker is controlled to operate at a third fire power according to the fire control signal, and meanwhile, the range hood is controlled to operate at a third wind speed according to the high wind control signal.

Referring to fig. 10, in one embodiment, the range control apparatus further includes an independent control module 400. The independent control module 400 is used for adjusting the wind speed of the range hood according to a second voice instruction sent by the user and a preset voice database.

In one embodiment, the independent control module 400 is further configured to, when a low wind voice command sent by a user is received, perform matching analysis according to a preset voice database to obtain a low wind control signal, and control the range hood to operate at a first wind speed according to the low wind control signal; when a stroke voice instruction sent by a user is received, matching analysis is carried out according to a preset voice database to obtain a stroke control signal, and a range hood is controlled to operate at a second wind speed according to the stroke control signal; and when a high wind voice command sent by a user is received, performing matching analysis according to a preset voice database to obtain a high wind control signal, and controlling the smoke machine to operate at a third wind speed according to the high wind control signal.

Referring to fig. 10, in one embodiment, the range control apparatus further includes a shutdown control module 500. The shutdown control module 500 is used for controlling the cooking range to be shut down according to a shutdown voice instruction sent by a user and a preset voice database, and controlling the range hood to be shut down in a delayed manner.

For specific limitations of the smoke control device, reference may be made to the above limitations of the smoke control method, which are not described herein again. All or part of each module in the smoke stove control device can be realized by software, hardware and a combination thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

Above-mentioned cigarette kitchen controlling means adopts voice control's mode to realize the control to cigarette machine and cooking utensils, when receiving the start voice command that the user sent, can control the cigarette machine and cooking utensils start simultaneously according to start voice command and preset voice database. When a first voice instruction sent by a user is received, the adjustment operation of the wind speed of the range hood and the firepower of the stove can be simultaneously realized according to the first voice instruction and the preset voice database. Through above-mentioned scheme, the user directly carries out cigarette kitchen control through voice command, need not leave the hand and carry out the control of cigarette machine and cooking utensils when culinary art, guarantees that the culinary art operation can not be interrupted to, the user can realize the control of cigarette machine and cooking utensils simultaneously through voice command of one, has very strong operation convenience.

Referring to fig. 11, a smoke range control system includes a voice control device 10, a smoke machine 20 and a range 30, wherein the smoke machine 20 and the range 30 are respectively connected to the voice control device 10, and the voice control device 10 is used for controlling the smoke range according to the above method.

Specifically, the smoke stove is a smoke machine 20 and a stove 30, the stove 30 can provide a heat source for cooking, and the smoke machine 20 can discharge smoke and the like generated when a user cooks by using the stove 30 in time, so as to avoid indoor pollution. According to the smoke control device, the voice control device 10 is arranged in the smoke stove system, the voice command sent by a user can be realized through the voice control device 10, and finally, the control signal corresponding to the voice command is output to control the smoke machine 20 and the stove 30. It should be noted that the type of the power-on voice command is not unique, and in order to ensure the accuracy of the voice control, the voice command should be as concise as possible, and in one embodiment, the power-on voice command is "power on", that is, in the actual smoke range control operation, the user only says "power on", that is, the user sends the power-on voice command. In other embodiments, the voice command may be of another type, such as "power on" or the like, as long as it can be successfully recognized by the voice control apparatus 10.

Further, referring to fig. 2, in one embodiment, the voice control apparatus 10 includes a sound collector, a voice recognizer, a memory, a controller, and the like, and the sound collector may further be a microphone, and the like. In an actual work project, after the microphone of the voice control device 10 collects sound, the sound is sent to the voice recognizer for recognition processing, and after the information related to the startup is obtained, the information indicates that a startup voice instruction sent by a user is received. It is understood that the structure of the voice control apparatus 10 is not limited to the embodiment shown in fig. 2, for example, in an embodiment, the functions of the memory and the controller may be integrated into a processor, and the microphone collects the sound and then directly transmits the sound to the voice recognizer for recognition, and then the processor is matched with a voice database pre-stored in the memory to obtain a control signal to implement the corresponding control signal.

The preset voice database is prestored with a plurality of voice instructions and control signals corresponding to the voice instructions respectively. After the voice control device 10 receives the power-on voice instruction, the power-on voice instruction and the preset voice database are analyzed, and the range hood 20 and the cooking utensil 30 are controlled to be powered on and operated simultaneously according to the analysis result. It can be understood that the simultaneous operation of the range hood 20 and the range 30 means that the range hood 20 and the range 30 are powered on and enter a standby state at the same time, so that the range hood 20 and the range 30 can enter the working state in time when the range hood needs to work in the future.

Under the condition that the range hood 20 and the kitchen range 30 are both started, a user can start the kitchen range 30 during cooking to provide a heat source, and meanwhile, the fan is guaranteed to be started to operate, so that generated oil smoke and the like are discharged in real time, and the indoor environment is guaranteed not to be polluted. Therefore, the user can send out a first voice command, and the range hood 20 and the cooking utensil 30 are controlled to simultaneously start to operate through the first voice command. In this embodiment, there are two control signals corresponding to the first voice instruction in the preset voice database, and the two control signals are respectively used for controlling the range hood 20 and the kitchen range 30 to operate, that is, after the voice control device 10 receives the first voice instruction, the linkage control of the range hood 20 and the kitchen range 30 can be realized, so that the range hood 20 and the kitchen range 30 operate simultaneously.

Above-mentioned cigarette kitchen control system adopts voice control's mode to realize the control to cigarette machine and cooking utensils, when receiving the start voice command that the user sent, can control the cigarette machine and cooking utensils start simultaneously according to start voice command and preset voice database. When a first voice instruction sent by a user is received, the adjustment operation of the wind speed of the range hood and the firepower of the stove can be simultaneously realized according to the first voice instruction and the preset voice database. Through above-mentioned scheme, the user directly carries out cigarette kitchen control through voice command, need not leave the hand and carry out the control of cigarette machine and cooking utensils when culinary art, guarantees that the culinary art operation can not be interrupted to, the user can realize the control of cigarette machine and cooking utensils simultaneously through voice command of one, has very strong operation convenience.

In one embodiment, a computer device is provided, which may be a server, and its internal structure diagram may be as shown in fig. 12. The computer device includes a processor, a memory, a network interface, and a database connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, a computer program, and a database. The internal memory provides an environment for the operation of an operating system and computer programs in the non-volatile storage medium. The database of the computer device is used for storing data such as voice instructions, control instructions and the like. The network interface of the computer device is used for communicating with an external terminal through a network connection. The computer program is executed by a processor to implement a smoke range control method.

Those skilled in the art will appreciate that the architecture shown in fig. 12 is merely a block diagram of some of the structures associated with the disclosed aspects and is not intended to limit the computing devices to which the disclosed aspects apply, as particular computing devices may include more or less components than those shown, or may combine certain components, or have a different arrangement of components.

In one embodiment, a computer device is provided, comprising a memory and a processor, the memory having a computer program stored therein, the processor implementing the following steps when executing the computer program: receiving a starting-up voice instruction sent by a user; controlling the range hood and the kitchen range to be started and operated simultaneously according to the starting voice instruction and a preset voice database; and simultaneously adjusting the firepower of the cooker and the air speed of the range hood according to the first voice instruction sent by the user and a preset voice database.

In one embodiment, the processor, when executing the computer program, further performs the steps of: performing matching analysis according to the starting voice instruction and a preset voice database to obtain a starting control signal; and controlling the range hood and the kitchen range to be started and operated simultaneously according to the starting control signal.

In one embodiment, the processor, when executing the computer program, further performs the steps of: when a small fire voice instruction sent by a user is received, performing matching analysis according to a preset voice database to obtain a small fire control signal and a low wind control signal, controlling the cooker to operate at a first fire power according to the small fire control signal, and controlling the range hood to operate at a first wind speed according to the low wind control signal; when a medium fire voice instruction sent by a user is received, matching analysis is carried out according to a preset voice database to obtain a medium fire control signal and a medium wind control signal, the cooker is controlled to operate at a second fire power according to the medium fire control signal, and a range hood is controlled to operate at a second wind speed according to the medium wind control signal; when a fire voice instruction sent by a user is received, matching analysis is carried out according to a preset voice database to obtain a fire control signal and a high wind control signal, the cooker is controlled to operate at a third fire power according to the fire control signal, and a range hood is controlled to operate at a third wind speed according to the high wind control signal; the second fire is higher than the first fire, the third fire is higher than the second fire, the second wind speed is higher than the first wind speed, and the third wind speed is higher than the second wind speed.

In one embodiment, the processor, when executing the computer program, further performs the steps of: and adjusting the wind speed of the range hood according to a second voice instruction sent by the user and a preset voice database.

In one embodiment, the processor, when executing the computer program, further performs the steps of: when a low wind voice instruction sent by a user is received, performing matching analysis according to a preset voice database to obtain a low wind control signal, and controlling a range hood to operate at a first wind speed according to the low wind control signal; when a stroke voice instruction sent by a user is received, matching analysis is carried out according to a preset voice database to obtain a stroke control signal, and a range hood is controlled to operate at a second wind speed according to the stroke control signal; when a high wind voice instruction sent by a user is received, carrying out matching analysis according to a preset voice database to obtain a high wind control signal, and controlling a range hood to operate at a third wind speed according to the high wind control signal; the second wind speed is greater than the first wind speed and the third wind speed is greater than the second wind speed.

In one embodiment, the processor, when executing the computer program, further performs the steps of: and controlling the cooker to shut down according to a shutdown voice instruction sent by a user and a preset voice database, and controlling the range hood to shut down in a delayed manner.

In one embodiment, a computer-readable storage medium is provided, having a computer program stored thereon, which when executed by a processor, performs the steps of: receiving a starting-up voice instruction sent by a user; controlling the range hood and the kitchen range to be started and operated simultaneously according to the starting voice instruction and a preset voice database; and simultaneously adjusting the firepower of the cooker and the air speed of the range hood according to the first voice instruction sent by the user and a preset voice database.

In one embodiment, the computer program when executed by the processor further performs the steps of: performing matching analysis according to the starting voice instruction and a preset voice database to obtain a starting control signal; and controlling the range hood and the kitchen range to be started and operated simultaneously according to the starting control signal.

In one embodiment, the computer program when executed by the processor further performs the steps of: when a small fire voice instruction sent by a user is received, performing matching analysis according to a preset voice database to obtain a small fire control signal and a low wind control signal, controlling the cooker to operate at a first fire power according to the small fire control signal, and controlling the range hood to operate at a first wind speed according to the low wind control signal; when a medium fire voice instruction sent by a user is received, matching analysis is carried out according to a preset voice database to obtain a medium fire control signal and a medium wind control signal, the cooker is controlled to operate at a second fire power according to the medium fire control signal, and a range hood is controlled to operate at a second wind speed according to the medium wind control signal; when a fire voice instruction sent by a user is received, matching analysis is carried out according to a preset voice database to obtain a fire control signal and a high wind control signal, the cooker is controlled to operate at a third fire power according to the fire control signal, and a range hood is controlled to operate at a third wind speed according to the high wind control signal; the second fire is higher than the first fire, the third fire is higher than the second fire, the second wind speed is higher than the first wind speed, and the third wind speed is higher than the second wind speed.

In one embodiment, the computer program when executed by the processor further performs the steps of: and adjusting the wind speed of the range hood according to a second voice instruction sent by the user and a preset voice database.

In one embodiment, the computer program when executed by the processor further performs the steps of: when a low wind voice instruction sent by a user is received, performing matching analysis according to a preset voice database to obtain a low wind control signal, and controlling a range hood to operate at a first wind speed according to the low wind control signal; when a stroke voice instruction sent by a user is received, matching analysis is carried out according to a preset voice database to obtain a stroke control signal, and a range hood is controlled to operate at a second wind speed according to the stroke control signal; when a high wind voice instruction sent by a user is received, carrying out matching analysis according to a preset voice database to obtain a high wind control signal, and controlling a range hood to operate at a third wind speed according to the high wind control signal; the second wind speed is greater than the first wind speed and the third wind speed is greater than the second wind speed.

In one embodiment, the computer program when executed by the processor further performs the steps of: and controlling the cooker to shut down according to a shutdown voice instruction sent by a user and a preset voice database, and controlling the range hood to shut down in a delayed manner.

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 computer equipment and the storage medium realize the control of the smoke machine and the kitchen range in a voice control mode, and when a starting voice instruction sent by a user is received, the smoke machine and the kitchen range can be controlled to be started simultaneously according to the starting voice instruction and the preset voice database. When a first voice instruction sent by a user is received, the adjustment operation of the wind speed of the range hood and the firepower of the stove can be simultaneously realized according to the first voice instruction and the preset voice database. Through above-mentioned scheme, the user directly carries out cigarette kitchen control through voice command, need not leave the hand and carry out the control of cigarette machine and cooking utensils when culinary art, guarantees that the culinary art operation can not be interrupted to, the user can realize the control of cigarette machine and cooking utensils simultaneously through voice command of one, has very strong operation convenience.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within 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 claims. 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.

Claims (12)

1. A method of controlling a range of stoves, the method comprising:

receiving a starting-up voice instruction sent by a user;

controlling the range hood and the kitchen range to be started and operated simultaneously according to the starting voice instruction and a preset voice database;

and simultaneously adjusting the firepower of the cooker and the air speed of the range hood according to a first voice instruction sent by a user and the preset voice database.

2. The smoke stove control method according to claim 1, wherein the step of controlling the smoke machine and the stove to be simultaneously started to operate according to the starting voice instruction and a preset voice database comprises the following steps:

performing matching analysis according to the starting voice instruction and a preset voice database to obtain a starting control signal;

and controlling the range hood and the kitchen range to be started and operated simultaneously according to the starting control signal.

3. The smoke range control method according to claim 1, wherein the first voice command comprises a small fire voice command, a medium fire voice command, and a large fire voice command.

4. The smoke range control method according to claim 3, wherein the step of simultaneously adjusting the fire power of the range and the air speed of the range machine according to the first voice command sent by the user and the preset voice database comprises:

when a small fire voice instruction sent by a user is received, performing matching analysis according to the preset voice database to obtain a small fire control signal and a low wind control signal, controlling the cooker to operate at a first fire power according to the small fire control signal, and controlling the range hood to operate at a first wind speed according to the low wind control signal;

when a medium fire voice instruction sent by a user is received, performing matching analysis according to the preset voice database to obtain a medium fire control signal and a medium wind control signal, controlling the kitchen range to operate at a second fire power according to the medium fire control signal, and controlling the range hood to operate at a second wind speed according to the medium wind control signal;

when a fire voice instruction sent by a user is received, performing matching analysis according to the preset voice database to obtain a fire control signal and a high wind control signal, controlling the kitchen range to operate at a third fire power according to the fire control signal, and controlling the range hood to operate at a third wind speed according to the high wind control signal; the second fire is higher than the first fire, the third fire is higher than the second fire, the second wind speed is higher than the first wind speed, and the third wind speed is higher than the second wind speed.

5. The range control method according to claim 1, wherein after the step of controlling the range hood and the range to be simultaneously started and operated according to the starting voice instruction and a preset voice database, the method further comprises the following steps:

and adjusting the wind speed of the range hood according to a second voice instruction sent by the user and the preset voice database.

6. The smoke cooker control method of claim 5, wherein the second voice command comprises a low wind voice command, a medium wind voice command, and a high wind voice command.

7. The range control method of claim 6, wherein the step of adjusting the wind speed of the range hood according to the first voice command sent by the user and the preset voice database comprises:

when a low wind voice instruction sent by a user is received, performing matching analysis according to the preset voice database to obtain a low wind control signal, and controlling the cigarette machine to operate at a first wind speed according to the low wind control signal;

when a stroke voice instruction sent by a user is received, performing matching analysis according to the preset voice database to obtain a stroke control signal, and controlling the cigarette making machine to operate at a second wind speed according to the stroke control signal;

when a high wind voice instruction sent by a user is received, performing matching analysis according to the preset voice database to obtain a high wind control signal, and controlling the cigarette machine to operate at a third wind speed according to the high wind control signal; the second wind speed is greater than the first wind speed, and the third wind speed is greater than the second wind speed.

8. The range control method according to claim 1, wherein after the step of controlling the range hood and the range to be simultaneously started and operated according to the starting voice instruction and a preset voice database, the method further comprises the following steps:

and controlling the kitchen range to be shut down according to a shutdown voice instruction sent by a user and the preset voice database, and controlling the range hood to be shut down in a delayed manner.

9. A smoke range control device, characterized in that the device comprises:

the voice receiving module is used for receiving a starting-up voice instruction sent by a user;

the starting control module is used for controlling the smoke machine and the kitchen range to be started and operated simultaneously according to the starting voice instruction and a preset voice database;

and the comprehensive adjusting module is used for adjusting the firepower of the cooker and the air speed of the range hood simultaneously according to a first voice instruction sent by a user and the preset voice database.

10. A smoke stove control system, characterized in that the system comprises a voice control device, a smoke machine and a stove, wherein the smoke machine and the stove are respectively connected with the voice control device, and the voice control device is used for controlling a smoke stove according to the method of any one of claims 1 to 8.

11. 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 8 when executing the computer program.

12. 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 8.

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