CN212618557U - Integrated kitchen control system and integrated kitchen - Google Patents

Abstract

The application relates to an integrated kitchen control system and integrated kitchen are provided with the intercommunication device between the sterilizer of integrated kitchen and fume extraction subassembly, and the sterilizing equipment who sends when receiving the user is inside to control the sterilizer and open. After the disinfection operation of sterilizer and its inside article is accomplished, still further control intercommunication device opens to make the inside disinfection gas of sterilizer can flow into the oil smoke sucking and discharging subassembly, realize inhaling the disinfection operation of oil smoke sucking and discharging subassembly, and finally discharge disinfection gas through the oil smoke sucking and discharging subassembly. Through above-mentioned scheme, can realize the disinfection operation to the oil smoke sucking and discharging subassembly of integrated kitchen to when avoiding appearing the long-time use, the problem of bacterium is bred to integrated kitchen inside.

Description

Integrated kitchen control system and integrated kitchen

Technical Field

The application relates to the technical field of household equipment, in particular to an integrated cooker control system and an integrated cooker.

Background

The integrated stove is a kitchen appliance integrating a plurality of functions of a range hood, a gas stove, a disinfection cabinet, a storage cabinet and the like into a whole, is also called as an environment-friendly stove or an integrated environment-friendly stove in the industry, and has the advantages of space saving, good oil fume extraction effect, energy saving, low consumption, environment friendliness and the like. With the continuous improvement of the living standard of people and the continuous pursuit of healthy life, the integrated stove is bound to become the mainstream of future kitchen decoration.

After the existing integrated stove is used for a period of time, oil stains can be accumulated in a smoke collection cavity and an air cabinet of the integrated stove, harmful substances such as bacteria are gradually generated, and the integrated stove cannot be cleaned by percent even if steam with the highest cleaning rate is used for cleaning, so that the generated bacteria are still harmful to human bodies. Therefore, the conventional integrated cookers have a drawback of being easy to grow bacteria.

SUMMERY OF THE UTILITY MODEL

Based on this, it is necessary to provide an integrated cooker control system and an integrated cooker, aiming at the problem that bacteria are easy to breed in the conventional integrated cooker.

An integrated cooker control system comprising: sterilizing unit, intercommunication device and controller, sterilizing unit sets up in the inside of the sterilizer of integrated kitchen, the intercommunication device set up in the sterilizing cabinet with between the oil smoke components is arranged in inhaling of integrated kitchen, sterilizing unit with the intercommunication device is connected respectively the controller, the controller is used for receiving disinfection command control sterilizing unit opens, closes when the disinfection reaches and predetermines the end condition sterilizing unit, and control the intercommunication device is opened, so that the gaseous flow in the sterilizing cabinet of disinfection inhales and arranges the oil smoke components.

In one embodiment, the integrated cooker control system further comprises a sterilizing gas concentration detector disposed inside the sterilizing cabinet, the sterilizing gas concentration detector being connected to the controller.

In one embodiment, the disinfection device is an ozone generator.

In one embodiment, the sterilizing gas concentration detector is an ozone sensor.

In one embodiment, the communication means is a one-way solenoid valve.

In one embodiment, the integrated cooker control system further comprises a child lock button, the child lock button being connected to the controller.

An integrated cooker comprises a disinfection cabinet, an oil smoke sucking and discharging assembly and the integrated cooker control system.

In one embodiment, the cooking fume sucking and exhausting assembly comprises a fan, and the fan is connected with the controller.

In one embodiment, the cooking fume sucking and exhausting assembly comprises a fume hood and a fume collecting hood, the fume collecting hood is arranged at the top of the fume hood, the fume hood is arranged at the side of the disinfection cabinet, and the fume hood is connected with the disinfection cabinet through the communication device.

In one embodiment, the integrated cooker further comprises a cooker, the cooker is arranged at the top of the disinfection cabinet, and the cooker is connected with the controller.

Above-mentioned integrated kitchen control system and integrated kitchen are provided with the intercommunication device between the sterilizer of integrated kitchen and suction and exhaust oil smoke subassembly, and the sterilizing equipment who sends when receiving the user controls the sterilizer inside opens. After the disinfection operation of sterilizer and its inside article is accomplished, still further control intercommunication device opens to make the inside disinfection gas of sterilizer can flow into the oil smoke sucking and discharging subassembly, realize inhaling the disinfection operation of oil smoke sucking and discharging subassembly, and finally discharge disinfection gas through the oil smoke sucking and discharging subassembly. Through above-mentioned scheme, can realize the disinfection operation to the oil smoke sucking and discharging subassembly of integrated kitchen to when avoiding appearing the long-time use, the problem of bacterium is bred to integrated kitchen inside.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments or the conventional technologies of the present application, the drawings used in the descriptions of the embodiments or the conventional technologies will be briefly introduced below, it is obvious that the drawings in the following descriptions are only some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an integrated cooker control system in an embodiment;

FIG. 2 is a schematic structural diagram of an integrated cooker control system in another embodiment;

FIG. 3 is a flowchart of a control method of an integrated cooker according to an embodiment;

FIG. 4 is a flowchart of a control method of an integrated cooker in another embodiment;

fig. 5 is a flowchart of a control method of an integrated cooker in still another 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, an integrated cooker control system includes: sterilizing unit 20, intercommunication device 10 and controller, sterilizing unit 20 sets up in the inside of the sterilizer 50 of integrated kitchen, intercommunication device 10 set up in sterilizer 50 with between the fume suction and exhaust subassembly 60 of integrated kitchen, sterilizing unit 20 with intercommunication device 10 connects respectively the controller, the controller is used for receiving disinfection instruction control sterilizing unit 20 opens, closes when the disinfection reaches preset end condition sterilizing unit 20, and control intercommunication device 10 opens, so that the disinfection gas in the sterilizer 50 flows in fume suction and exhaust subassembly 60.

Specifically, in the integrated kitchen, the sterilizing cabinet 50 is used for storing tableware, and the sterilizing device 20 is disposed inside the sterilizing cabinet 50, so that the tableware and the like in the sterilizing device 20 can be directly sterilized after the sterilizing device 20 is opened. It will be appreciated that the manner in which the controller receives the disinfection instructions is not exclusive and in one embodiment the disinfection instructions may be sent directly by the user, for example, by providing a disinfection button on the exterior of the disinfection cabinet 50, which only needs to be pressed on the exterior of the disinfection cabinet 50 when the user needs to disinfect the contents of the disinfection cabinet 50. In other embodiments, the command may be sent in other manners, for example, when the user closes the door of the disinfection cabinet 50, the disinfection operation is directly triggered, that is, the controller obtains the state that the user closes the door of the disinfection cabinet 50 as the received disinfection command.

It should be noted that the type of the sterilizing device 20 is not exclusive, and any device capable of generating gas having sterilizing and disinfecting functions may be used. For example, in one embodiment, an ozone generator is used as the sterilizing device 20, i.e., ozone is used as the sterilizing gas to perform the sterilizing operation of the sterilizing cabinet 50 and the objects inside the sterilizing cabinet 50.

The controller is pre-stored with a trigger condition (i.e. a preset end condition) for closing the disinfection apparatus 20 to stop disinfecting the disinfection cabinet 50, and during the disinfection operation, the controller performs an analysis operation on whether the trigger condition is met in real time, and when the preset end condition is met, the controller will send a closing control signal to the disinfection apparatus 20 to control the disinfection apparatus 20 to stop running.

It is understood that the specific form of the preset ending condition is not exclusive, and in one embodiment, the duration of the disinfection operation may be used as the judgment condition, that is, the controller counts the disinfection operation, and when the duration of the disinfection operation reaches a certain time, the disinfection device 20 is directly controlled to stop operating. In another embodiment, the concentration of the sterilizing gas generated by the sterilizing device 20 in the sealed sterilizing cabinet 50 may reach a certain concentration, that is, the controller may obtain the concentration data of the sterilizing gas in the sterilizing cabinet 50 in real time during the sterilizing process, and directly control the sterilizing device 20 to stop operating when the concentration data reaches a certain value.

After the controller controls the sterilizing device 20 to stop operating, this indicates that the sterilizing operation on the objects in the sterilizing cabinet 50 is completed, but since the sterilizing operation is performed in a closed environment, the sterilizing cabinet 50 is filled with sterilizing gas, and the sterilizing gas is reused in this embodiment. The inner space of the sterilizing cabinet 50 is communicated with the inner space of the cooking fume sucking and exhausting assembly 60 by a communicating means 10, the communicating means 10 is closed in the sterilizing operation, and the sterilizing gas is only present in the sterilizing cabinet 50 to sterilize the articles in the sterilizing cabinet 50. When the disinfection operation is completed, after the controller controls the disinfection device 20 to be closed, the controller will further control the communication device 10 to be opened, so that the disinfection gas in the disinfection cabinet 50 flows into the oil smoke sucking and discharging assembly 60 through the communication device 10, and the disinfection operation of the oil smoke sucking and discharging assembly 60 is realized.

It should be noted that, in one embodiment, referring to fig. 2 in combination, the cooking fume sucking and exhausting assembly 60 includes a hood 61 and a fume collecting hood 62, wherein the fume collecting hood 62 is disposed on the top of the hood 61 for collecting the cooking fume generated by the cooking of the integrated range; the wind cabinet 61 is disposed at a side of the sterilizing cabinet 50 and is communicated with the sterilizing cabinet 50 through the communication device 10. Under the condition that the communicating device 10 is opened, the sterilizing gas in the sterilizing cabinet 50 firstly flows into the wind cabinet 61 to realize the sterilizing operation of the wind cabinet 61, then flows into the fume collecting hood 62 to realize the sterilizing operation of the fume collecting hood 62, and finally the sterilizing gas is the same as the oil smoke generated by cooking and is exhausted through the fume collecting hood 62.

It will be appreciated that the type of communication device 10 is not exclusive and in one embodiment, the communication device 10 is a one-way solenoid valve. After the controller controls the sterilizing device 20 to stop operating, only the one-way solenoid valve needs to be controlled to open, and under the suction of the oil smoke sucking and exhausting assembly 60, the sterilizing gas in the sterilizing cabinet 50 will flow into the oil smoke sucking and exhausting assembly 60 to sterilize the oil smoke sucking and exhausting assembly 60, and finally be exhausted to the outside atmosphere through the oil smoke sucking and exhausting assembly 60.

Further, in one embodiment, the cooking fume extracting assembly 60 further comprises a fan connected to the controller. In order to ensure that the sterilizing gas can sterilize the whole oil smoke sucking and discharging assembly 60 from bottom to top, after the sterilizing device 20 is closed, the controller controls the fan to be started, the motor of the fan drives the wind wheel to suck and discharge residual sterilizing gas (namely, residual sterilizing gas in the sterilizing cabinet 50 after the sterilizing device 20 is closed), and in the oil smoke sucking and discharging process, the sterilizing gas simultaneously sterilizes the whole oil smoke sucking and discharging assembly 60. It can be appreciated that in one embodiment, the motor of the fan operates at the lowest rotation speed when sucking and exhausting residual sterilizing gas, which has the advantage of energy conservation.

Referring to fig. 3, in an embodiment, the controller receives the disinfection command may specifically be that the controller receives a trigger signal for the user to close the disinfection cabinet 50, that is, when the user closes the disinfection cabinet 50 to perform disinfection, the controller does not directly control the disinfection device 20 to be turned on, and at this time, a detection operation for determining whether the user sets a preset disinfection duration needs to be performed. If the user sets the preset disinfection time period, the disinfection operation time period is reached as the preset end condition of the disinfection operation, the whole disinfection operation is timed, and when the disinfection operation time period reaches the preset disinfection time period, the disinfection device 20 is turned off.

It should be noted that the manner of detecting whether the user sets the preset disinfection duration is not exclusive, and may be detecting whether the user further sets the preset disinfection duration after receiving the disinfection instruction; or after receiving the disinfection command, detecting whether a preset disinfection time length is set in the controller.

In one embodiment, a setting example of detecting whether the user further performs the preset sterilization duration after receiving the sterilization instruction is taken. After the controller receives the disinfection instruction, timing is started by a preset timing duration, and if a setting instruction of the preset disinfection duration sent by a user is not received within the preset timing duration, the preset disinfection duration is not set by the user; if a setting instruction of the preset disinfection duration sent by the user is received within the preset timing duration, the preset disinfection duration is set by the user. It is understood that the preset time period is not exclusive and may be 30 seconds, one minute, two minutes, etc.

And under the condition that the user sets the preset disinfection time, obtaining the preset disinfection time as a preset ending condition for ending the disinfection operation. After the controller controls the disinfection device 20 to be started, the controller will start to time by the preset disinfection duration, and when the time reaches the preset disinfection duration, the controller will send a closing control signal to the disinfection device 20 to control the disinfection device 20 to stop running.

In one embodiment, if the user does not set the preset disinfection duration, it indicates that the disinfection duration is not required to be used as the determination condition for judging whether disinfection is finished. In order to avoid unnecessary energy waste caused by continuous sterilization, the present embodiment further determines whether to terminate the sterilization by the concentration of the sterilizing gas in the sterilizing cabinet 50. When the user closes the cabinet door of the sterilizing cabinet 50 to prepare for the sterilizing operation, if the controller detects that the preset sterilizing duration is not set, the sterilizing control operation is performed according to the preset sterilizing gas concentration data.

It can be understood that predetermine disinfection gas concentration data can be that the user sets for at the in-process that uses integrated kitchen, also can predetermine in the controller, and under the condition that the user did not set for the disinfection duration, the disinfection gas concentration data of predetermineeing that directly calls corresponds realizes predetermineeing disinfection gas concentration data's settlement, then control degassing unit 20 open can.

Referring to fig. 2, in the present embodiment, a sterilizing gas concentration detector 40 is disposed in a sterilizing cabinet 50, and the sterilizing gas concentration detector 40 is connected to a controller (not shown). During the start-up of the sterilizing device 20 for the sterilizing operation, the sterilizing gas concentration detector 40 detects the concentration of the sterilizing gas in real time and sends the detected sterilizing gas concentration data to the controller for analysis. The controller compares the received concentration data of the sterilizing gas with the preset sterilizing gas concentration data set in the above operation, and if the concentration of the sterilizing gas is less than the preset sterilizing gas concentration data, it indicates that the preset end condition is not reached, and at this time, the sterilizing device 20 is continuously started to sterilize. If the concentration data of the sterilizing gas is greater than or equal to the preset sterilizing gas concentration data, it indicates that the preset end condition is reached, and at this time, the sterilizing device 20 is controlled to be closed, and the sterilizing operation of the articles in the sterilizing cabinet 50 is ended.

In one embodiment, disinfection device 20 is an ozone generator, the corresponding disinfection gas is ozone, and disinfection gas concentration detector 40 is an ozone concentration detector. Because the density of ozone is great, will set up the ozone concentration detector in the bottom of sterilizer 50 at this moment and carry out the operation of ozone concentration detection in sterilizer 50 in real time to the ozone concentration data that will detect and obtain are sent to the controller and are analyzed. Further, in one embodiment, the ozone concentration detector is an ozone concentration sensor.

When the user uses the disinfection cabinet 50 to disinfect kitchen and tableware, the disinfection cabinet 50 enters a child-lock state, that is, the cabinet door of the disinfection cabinet 50 is locked, and the user cannot open the cabinet door during disinfection. Through the scheme of this embodiment, can avoid the user to open sterilizer 50 during the disinfection, the gaseous flow in exterior space of disinfection in sterilizer 50 seriously influences disinfection efficiency.

Referring to fig. 4, after the disinfection cabinet 50 enters the child-lock state due to the disinfection operation, if the user temporarily needs to open the disinfection cabinet 50, the user will directly send an unlocking instruction to the controller, and after the controller receives the unlocking instruction, the controller will further send an instruction to the disinfection cabinet 50 to control the disinfection cabinet 50 to exit the child-lock state, that is, to release the locking operation of the disinfection cabinet door, so that the user can open the disinfection cabinet door to take out or add articles from the disinfection cabinet door. It is understood that the unlocking command is not sent only, but in one embodiment, a child lock button is arranged on the outer surface of the disinfection cabinet 50, and the child lock button is connected with the controller, and when a user needs to unlock, the user can directly press the child lock button.

It should be noted that the state of the disinfection cabinet 50 being withdrawn from the child lock state can be controlled by the user pressing the child lock button, during the disinfection process when the disinfection device 20 is opened for disinfection, or during the disinfection process when the disinfection device 20 is closed and the cooking fume sucking and discharging assembly 60 discharges the disinfection gas in the disinfection cabinet 50 through the communication device 10.

Further, in one embodiment, after the user controls the disinfection cabinet 50 to exit the child-lock state through the child-lock button, if it is detected that the user closes the disinfection cabinet door again (i.e. the user opens the cabinet door to take out or put in the object and closes the disinfection cabinet door again), the controller will control the disinfection cabinet 50 to enter the child-lock state again to prevent the disinfection gas from leaking. At this time, the controller continues to perform the disinfection operation performed previously, specifically, the disinfection device 20 may be opened to continue disinfecting the articles in the disinfection cabinet 50, or the controller may continue to discharge the disinfection gas in the disinfection cabinet 50 to the cooking fume sucking and discharging assembly 60 through the communication device 10.

In another embodiment, the user controls the disinfection cabinet 50 to exit the child lock state through the child lock button, or the user may want to take out the articles in the disinfection cabinet 50 for use after the disinfection operation is finished, the user may close the disinfection control system through the button at any time without performing other procedures, and after the system is closed, the disinfection cabinet door is automatically unlocked, and the user may perform subsequent operations at will.

It should be noted that in other embodiments, it is also possible to control the disinfection cabinet 50 to exit the child-lock state when the opening duration of the communication device 10 reaches the preset opening duration. When the opening duration of the communicating device 10 reaches the preset opening duration, it indicates that the sterilizing gas in the sterilizing cabinet 50 has been completely exhausted through the fume exhaust and exhaust assembly 60, and at this time, the sterilizing operation of the whole integrated oven is completed, so that the controller will send a control signal to the sterilizing cabinet 50 at this time to control the sterilizing device 20 to exit from the child-lock state, and at this time, the user can open the cabinet door of the sterilizing cabinet 50 to take out the articles in the sterilizing cabinet 50.

It will be understood that the operation of determining whether the sterilizing gas is completely discharged is not exclusive, and may be visually reflected by detecting the sterilizing gas concentration data in the sterilizing cabinet 50, in addition to the determination made by the opening duration of the communicating means 10 in the above-described embodiment. In this embodiment, after the disinfection device 20 is turned off, the disinfection gas concentration detector 40 does not stop operating, but detects and sends the disinfection gas concentration data to the controller, and the controller analyzes the data to determine whether the fume exhaust and suction assembly 60 exhausts the disinfection gas, so as to determine whether the disinfection cabinet 50 is controlled to exit the child lock state.

In the integrated cooker control system, the communication device 10 is arranged between the disinfection cabinet 50 of the integrated cooker and the oil fume suction and exhaust assembly 60, and when a disinfection instruction sent by a user is received, the disinfection device 20 in the disinfection cabinet 50 is controlled to be opened. After the disinfection operation of the disinfection cabinet 50 and the articles therein is completed, the controller further controls the communication device 10 to be opened, so that the disinfection gas in the disinfection cabinet 50 can flow into the oil smoke sucking and discharging assembly 60, the disinfection operation of the oil smoke sucking and discharging assembly 60 is realized, and finally the disinfection gas is discharged through the oil smoke sucking and discharging assembly 60. Through above-mentioned scheme, can realize the disinfection operation to the oil smoke sucking and discharging subassembly 60 of integrated kitchen to when avoiding appearing the long-time use, the inside problem of breeding the bacterium of integrated kitchen.

An integrated cooker comprises a disinfection cabinet 50, an oil smoke sucking and discharging assembly 60 and the integrated cooker control system.

Specifically, referring to fig. 2, in the integrated kitchen, the disinfection cabinet 50 is used for storing tableware, and the disinfection device 20 is disposed inside the disinfection cabinet 50, so that the tableware and the like in the disinfection device 20 can be directly disinfected after the disinfection device 20 is opened. It will be appreciated that the manner in which the controller receives the disinfection instructions is not exclusive and in one embodiment the disinfection instructions may be sent directly by the user, for example, by providing a disinfection button on the exterior of the disinfection cabinet 50, which only needs to be pressed on the exterior of the disinfection cabinet 50 when the user needs to disinfect the contents of the disinfection cabinet 50. In other embodiments, the command may be sent in other manners, for example, when the user closes the door of the disinfection cabinet 50, the disinfection operation is directly triggered, that is, the controller obtains the state that the user closes the door of the disinfection cabinet 50 as the received disinfection command.

It should be noted that the type of the sterilizing device 20 is not exclusive, and any device capable of generating gas having sterilizing and disinfecting functions may be used. For example, in one embodiment, an ozone generating device is used as the sterilizing device 20, i.e., ozone is used as the sterilizing gas to perform the sterilizing operation of the sterilizing cabinet 50 and the objects inside the sterilizing cabinet 50.

The controller is pre-stored with a trigger condition (i.e. a preset end condition) for closing the disinfection apparatus 20 to stop disinfecting the disinfection cabinet 50, and during the disinfection operation, the controller performs an analysis operation on whether the trigger condition is met in real time, and when the preset end condition is met, the controller will send a closing control signal to the disinfection apparatus 20 to control the disinfection apparatus 20 to stop running.

It is understood that the specific form of the preset ending condition is not exclusive, and in one embodiment, the duration of the disinfection operation may be used as the judgment condition, that is, the controller counts the disinfection operation, and when the duration of the disinfection operation reaches a certain time, the disinfection device 20 is directly controlled to stop operating. In another embodiment, the concentration of the sterilizing gas generated by the sterilizing device 20 in the sealed sterilizing cabinet 50 may reach a certain concentration, that is, the controller may obtain the concentration data of the sterilizing gas in the sterilizing cabinet 50 in real time during the sterilizing process, and directly control the sterilizing device 20 to stop operating when the concentration data reaches a certain value.

After the controller controls the sterilizing device 20 to stop operating, this indicates that the sterilizing operation on the objects in the sterilizing cabinet 50 is completed, but since the sterilizing operation is performed in a closed environment, the sterilizing cabinet 50 is filled with sterilizing gas, and the sterilizing gas is reused in this embodiment. The inner space of the sterilizing cabinet 50 is communicated with the inner space of the cooking fume sucking and exhausting assembly 60 by a communicating means 10, the communicating means 10 is closed in the sterilizing operation, and the sterilizing gas is only present in the sterilizing cabinet 50 to sterilize the articles in the sterilizing cabinet 50. When the disinfection operation is completed, after the controller controls the disinfection device 20 to be closed, the controller will further control the communication device 10 to be opened, so that the disinfection gas in the disinfection cabinet 50 flows into the oil smoke sucking and discharging assembly 60 through the communication device 10, and the disinfection operation of the oil smoke sucking and discharging assembly 60 is realized.

It will be appreciated that the type of communication device 10 is not exclusive and in one embodiment, the communication device 10 is a one-way solenoid valve. After the controller controls the sterilizing device 20 to stop operating, only the one-way solenoid valve needs to be controlled to open, and under the suction of the oil smoke sucking and exhausting assembly 60, the sterilizing gas in the sterilizing cabinet 50 will flow into the oil smoke sucking and exhausting assembly 60 to sterilize the oil smoke sucking and exhausting assembly 60, and finally be exhausted to the outside atmosphere through the oil smoke sucking and exhausting assembly 60.

It should be noted that, in one embodiment, the cooking fume extracting and discharging assembly 60 includes a hood 61 and a fume collecting hood 62, wherein the fume collecting hood 62 is disposed on the top of the hood 61 for collecting the cooking fume generated when the integrated range cooks; the wind cabinet 61 is communicated with the sterilizing cabinet 50 through the communication means 10. Under the condition that the communicating device 10 is opened, the sterilizing gas in the sterilizing cabinet 50 firstly flows into the wind cabinet 61 to realize the sterilizing operation of the wind cabinet 61, then flows into the fume collecting hood 62 to realize the sterilizing operation of the fume collecting hood 62, and finally the sterilizing gas is the same as the oil smoke generated by cooking and is exhausted through the fume collecting hood 62.

Further, in one embodiment, the cooking fume extracting assembly 60 further comprises a fan connected to the controller. In order to ensure that the sterilizing gas can sterilize the whole oil smoke sucking and discharging assembly 60 from bottom to top, after the sterilizing device 20 is closed, the controller controls the fan to be started, the motor of the fan drives the wind wheel to suck and discharge residual sterilizing gas (namely, residual sterilizing gas in the sterilizing cabinet 50 after the sterilizing device 20 is closed), and in the oil smoke sucking and discharging process, the sterilizing gas simultaneously sterilizes the whole oil smoke sucking and discharging assembly 60. It can be appreciated that in one embodiment, the motor of the fan operates at the lowest rotation speed when sucking and exhausting residual sterilizing gas, which has the advantage of energy conservation.

Referring to fig. 2, in one embodiment, the integrated cooker further includes a cooker 70, the cooker 70 is disposed on the top of the disinfection cabinet 50, and the cooker 70 is connected to the controller.

Specifically, when the user cooks, the cooker 70 is opened, the oil smoke sucking and exhausting assembly 60 is automatically opened, and the rotating speed of the motor can be automatically adjusted according to the firepower. Referring to fig. 5, firstly, the user starts the cooking stove 70, adjusts the fire value to be suitable, the control system receives the instruction, and automatically adjusts the rotating speed of the motor according to the fire value; secondly, when the user stews and cooks food, the user usually turns to the small fire, and the motor automatically turns to the lowest rotating speed, so as to achieve the ideal state of reducing the power consumption. And if the user needs to modulate the big fire, correspondingly increasing the rotating speed of the motor.

Above-mentioned integrated kitchen is provided with the intercommunication device between integrated kitchen's sterilizer and fume suction and exhaust subassembly, and the sterilizing equipment who sends when receiving the user controls the sterilizer inside opens. After the disinfection operation of sterilizer and its inside article is accomplished, the controller still can further control the intercommunication device and open to make the inside disinfection gas of sterilizer can flow into and inhale the oil smoke discharging component, realize inhaling the disinfection operation of oil smoke discharging component, and finally discharge disinfection gas through inhaling the oil smoke discharging component. Through above-mentioned scheme, can realize the disinfection operation to the oil smoke sucking and discharging subassembly of integrated kitchen to when avoiding appearing the long-time use, the problem of bacterium is bred to integrated kitchen inside.

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 (10)

1. An integrated cooker control system, comprising: the sterilizing device is arranged inside the sterilizing cabinet of the integrated cooker, the communicating device is arranged between the sterilizing cabinet and the oil fume sucking and exhausting assembly of the integrated cooker, the sterilizing device and the communicating device are respectively connected with the controller,

the controller is used for receiving a disinfection instruction to control the disinfection device to be opened, closing the disinfection device when disinfection reaches a preset end condition, and controlling the communication device to be opened so that the disinfection gas in the disinfection cabinet flows into the oil fume suction and exhaust assembly.

2. The integrated cooker control system according to claim 1, further comprising a sterilizing gas concentration detector disposed inside the sterilizing cabinet, the sterilizing gas concentration detector being connected to the controller.

3. The integrated cooker control system according to claim 2, wherein the sterilizing device is an ozone generator.

4. The integrated cooker control system according to claim 3, wherein the sterilizing gas concentration detector is an ozone sensor.

5. The integrated cooker control system according to claim 1, wherein the communication means is a one-way solenoid valve.

6. The integrated cooker control system of claim 1, further comprising a child lock button, the child lock button being connected to the controller.

7. An integrated cooker, characterized by comprising a disinfection cabinet, a fume extraction and exhaust assembly and an integrated cooker control system according to any one of claims 1 to 6.

8. The integrated cooker of claim 7, wherein the fume extraction assembly includes a fan, the fan being coupled to the controller.

9. The integrated kitchen according to claim 7, wherein the fume extracting and exhausting assembly comprises a hood disposed at a top of the hood, and a hood disposed at a side of the sterilizing cabinet, and the hood and the sterilizing cabinet are connected by the communication device.

10. The integrated cooker according to claim 7, further comprising a cooker disposed on top of the sterilizing cabinet, the cooker being connected to the controller.

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