CN107327883B - Household appliance system, control method thereof, range hood and electric cooker - Google Patents

Abstract

The invention discloses a household appliance system and a control method thereof, a range hood and an electric cooker, wherein the range hood is communicated with an induction cooker, and the control method comprises the following steps: when the induction cooker is started and starts to cook, acquiring a current cooking mode of the induction cooker; and judging whether to start the range hood to work according to the current cooking mode of the induction cooker. Therefore, the working state of the range hood can be controlled according to the current cooking mode of the induction cooker, the range hood does not need to be manually controlled, convenience is brought to a user, the oil smoke extraction effect can be improved, and energy waste is avoided.

Description

Household appliance system, control method thereof, range hood and electric cooker

Technical Field

The invention relates to the technical field of household appliances, in particular to a household appliance system, a control method of the household appliance system, a range hood and an electric cooker.

Background

At present, along with the continuous improvement of the living standard of people, the electrification level of kitchen equipment is higher and higher, and a range hood and an electric cooking device also enter the daily life of people for a long time.

Generally, when a user uses an electric cooker such as an induction cooker to cook, the user needs to separately open the range hood. However, a user often finds that the range hood is not opened when the oil smoke in the pot is large, and then manually opens the range hood, but the oil smoke scattered in a kitchen is difficult to be pumped away, so that the oil smoke in the kitchen is large. In addition, after cooking, the user often forgets to turn off the range hood, and when no oil smoke exists in the kitchen, the range hood still continues to work, which causes energy waste.

Disclosure of Invention

The present invention is directed to solving, at least to some extent, one of the technical problems in the related art.

Therefore, a first objective of the present invention is to provide a control method for a household appliance system, which can control the operating state of a range hood according to the current cooking mode of an electric cooker, so that the range hood does not need to be manually controlled, convenience is provided for users, the range hood effect can be improved, and energy waste is avoided.

A second object of the present invention is to propose a household appliance system.

The third purpose of the invention is to provide a range hood.

A fourth object of the present invention is to provide an electric cooker.

In order to achieve the above object, an embodiment of a first aspect of the present invention provides a control method for a household appliance system, where the household appliance system includes a range hood and an electric cooking device, and the range hood and the electric cooking device communicate with each other, and the control method includes the following steps: when the electric cooker is started and starts to cook, acquiring a current cooking mode of the electric cooker; and judging whether to automatically start the range hood to work according to the current cooking mode of the electric cooker.

According to the control method of the household appliance system, when the electric cooker is started and starts to cook, the current cooking mode of the electric cooker is obtained, and whether the range hood is started to work or not is judged according to the current cooking mode of the electric cooker. Therefore, the working state of the range hood can be controlled according to the current cooking mode of the electric cooker, the cooking mode can comprise cooking, water boiling, porridge cooking and other modes, when the cooking mode is the water boiling or porridge cooking mode, the range hood does not need to be started due to less oil smoke, when the cooking mode is the dish cooking mode, the range hood needs to be started, whether the range hood is automatically started to work is judged according to the current cooking mode of the electric cooker, so that the range hood does not need to be manually controlled, convenience is brought to users, the oil smoke extraction effect can be improved, waste of energy is avoided, the electric cooker can be an electromagnetic oven, an electromagnetic oven or a gas stove for controlling gas supply through the electromagnetic valve after the cooking mode is selected, and the gas stove controls the supply amount of gas according to the cooking mode to realize firepower control adjustment.

In addition, the control method of the household appliance system according to the present invention may further have the following additional technical features:

in an embodiment of the present invention, after the range hood is started to operate, if the electric cooker finishes the cooking operation, the range hood is controlled to be turned off after the electric cooker is turned off for a first preset time. The range hood is controlled to be closed after the electric cooker is closed for the first preset time, so that the range hood can be automatically closed after oil smoke is removed, convenience is further brought to a user, the oil smoke extraction effect is improved, and energy waste is avoided. In an embodiment of the present invention, the determining whether to start the range hood to work according to the cooking mode of the electric cooker includes: and when the current cooking mode of the electric cooker is a cooking mode, controlling the range hood to operate in a low-speed working mode.

In an embodiment of the present invention, after the range hood operates in the low speed operation mode, determining whether to start the range hood to operate according to a cooking mode of the electric cooker, further includes: judging whether the pot bottom temperature of the electric cooker is greater than a first preset temperature or not; and if the temperature of the bottom of the electric cooker is judged to be higher than the first preset temperature, controlling the range hood to be switched to a high-speed working mode to operate.

In an embodiment of the present invention, when the electric cooker is turned off, the range hood is further controlled to operate in the low speed operation mode for the first preset time and then turned off.

In one embodiment of the invention, after the electric cooker is started and starts to cook, the range hood is controlled according to a manual control instruction.

In order to achieve the above object, a second aspect of the present invention provides a household electrical appliance system, including a range hood and an electrical cooking device, where the range hood includes a first controller and a first communication module, the electrical cooking device includes a second controller and a second communication module, and the first communication module communicates with the second communication module, where when the electrical cooking device is started and starts to cook, the second controller obtains a current cooking mode of the electrical cooking device, and determines whether to start the range hood to work according to the current cooking mode of the electrical cooking device, and sends a start instruction to the first communication module through the second communication module when determining that the range hood needs to be started; the first controller controls the range hood to start to work according to the starting instruction received by the first communication module, and controls the range hood to close after the electric cooker finishes the cooking work and closes for a first preset time.

According to the household appliance system provided by the embodiment of the invention, when the electric cooker is started and starts to cook, the second controller acquires the current cooking mode of the electric cooker, judges whether the range hood is started to work or not according to the current cooking mode of the electric cooker, sends the starting instruction to the first communication module through the second communication module when the range hood is judged to be required to be started, then the first controller controls the range hood to start to work according to the starting instruction received by the first communication module, and controls the range hood to be closed after the electric cooker finishes cooking work and closes the first preset time. Therefore, the working state of the range hood can be controlled according to the current cooking mode of the electric cooker, so that the range hood does not need to be manually controlled, convenience is brought to a user, the oil fume extraction effect can be improved, and the waste of energy is avoided.

In addition, the household appliance system according to the present invention may further have the following additional technical features:

in an embodiment of the invention, when the current cooking mode of the electric cooker is a cooking mode, the first controller controls the range hood to operate in a low-speed working mode according to the starting instruction received by the first communication module.

In an embodiment of the present invention, after the range hood operates in the low-speed operating mode, the second controller further determines whether a pan bottom temperature of the electric cooking device is greater than a first preset temperature, and when it is determined that the pan bottom temperature of the electric cooking device is greater than the first preset temperature, the second controller sends a mode switching instruction to the first communication module through the second communication module, and the first controller controls the range hood to switch to the high-speed operating mode according to the mode switching instruction received by the first communication module.

In one embodiment of the present invention, when the electric cooker is turned off, the first controller further controls the range hood to operate in the low speed operation mode.

In an embodiment of the invention, after the electric cooker is started and starts to cook, the first controller further controls the range hood according to a manual control instruction.

In one embodiment of the present invention, the first communication module is a wireless receiving module, and the second communication module is a wireless transmitting module.

In an embodiment of the present invention, the electric cooking device is an induction cooker, an induction cooker or a gas cooker, and the induction cooker and the range hood are integrally disposed. After the gas stove selects the cooking mode, the supply amount of gas is controlled by the electromagnetic valve according to the cooking mode so as to realize firepower control and regulation.

In order to achieve the above object, an embodiment of a third aspect of the present invention provides a range hood, including: the first communication module is used for communicating with an electric cooker to receive a control instruction sent by the electric cooker, wherein when the electric cooker is started and starts to cook, the electric cooker judges that the range hood needs to be started to work according to the current cooking mode, and sends the starting instruction to the first communication module; the first controller is connected with the first communication module and controls the range hood to start to work according to a starting instruction received by the first communication module, and controls the range hood to close after the electric cooker finishes the cooking work and closes for a first preset time.

According to the range hood provided by the embodiment of the invention, when the electric cooker is started and starts to cook, and the electric cooker judges that the range hood needs to be started to work according to the current cooking mode, the starting instruction is sent to the first communication module, then the first controller controls the range hood to be started to work according to the starting instruction received by the first communication module, and the range hood is controlled to be closed after the electric cooker finishes cooking and is closed for the first preset time. Therefore, the working state of the range hood can be controlled according to the current cooking mode of the electric cooker, so that the range hood does not need to be manually controlled, convenience is brought to a user, the oil fume extraction effect can be improved, and the waste of energy is avoided.

In addition, the range hood according to the invention can also have the following additional technical characteristics:

in an embodiment of the invention, when the current cooking mode of the electric cooker is a cooking mode, the first controller controls the range hood to operate in a low-speed working mode according to the starting instruction received by the first communication module.

In an embodiment of the present invention, after the range hood operates in the low-speed operating mode, if the pan bottom temperature of the electric cooking device is greater than a first preset temperature, the electric cooking device sends a mode switching instruction to the first communication module, and the first controller controls the range hood to switch to the high-speed operating mode according to the mode switching instruction received by the first communication module.

In one embodiment of the present invention, after the range hood operates in the high speed operation mode, when the electric cooker is turned off, the first controller further controls the range hood to operate in the low speed operation mode.

In an embodiment of the invention, after the electric cooker is started and starts to cook, the first controller further controls the range hood according to a manual control instruction.

In order to achieve the above object, a fourth aspect of the present invention provides an electric cooking device, including: the second communication module is used for communicating with the range hood to send a control instruction to the range hood; the second controller is connected with the second communication module and used for acquiring the current cooking mode of the electric cooker when the electric cooker is started and starts to cook, sending a starting instruction to the range hood through the second communication module when the range hood needs to be started according to the current cooking mode of the electric cooker so as to start the range hood to work, and sending a closing instruction to the range hood through the second communication module when the electric cooker finishes the cooking work so as to close the range hood after a first preset time.

According to the electric cooker provided by the embodiment of the invention, the second controller acquires the current cooking mode of the electric cooker when the electric cooker is started and starts to cook, and sends the starting instruction to the range hood through the second communication module when the range hood needs to be started according to the current cooking mode of the electric cooker, so that the range hood is started to work, and sends the closing instruction to the range hood through the second communication module when the electric cooker finishes cooking, so that the range hood is closed after the first preset time. From this, electric cooking ware can control range hood's operating condition according to current culinary art mode, need not user manual control range hood, has brought the facility for the user, can promote the oil pumping cigarette effect simultaneously to the waste of the energy has been avoided.

In addition, the electric cooking device according to the present invention may further have the following additional technical features:

in an embodiment of the invention, when the current cooking mode of the electric cooker is a cooking mode, the second controller sends a low-speed operation instruction to the range hood through the second communication module, so that the range hood operates in the low-speed operation mode.

In an embodiment of the present invention, after the range hood operates in the low-speed operating mode, the second controller further determines whether a pan bottom temperature of the electric cooking device is greater than a first preset temperature, and when it is determined that the pan bottom temperature of the electric cooking device is greater than the first preset temperature, the second controller sends a mode switching instruction to the range hood through the second communication module, so that the range hood switches to the high-speed operating mode to operate.

In an embodiment of the present invention, when the electric cooker is turned off, the second controller sends a low-speed operation command to the range hood through the second communication module, so that the range hood operates in the low-speed operation mode.

In an embodiment of the present invention, the electric cooking device is an induction cooker, an induction cooker or a gas cooker, and the induction cooker and the range hood are integrally disposed. After the gas stove selects the cooking mode, the supply amount of gas is controlled by the electromagnetic valve according to the cooking mode so as to realize firepower control and regulation. The integrated arrangement includes forming a common associated control means.

Advantages of additional aspects of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Drawings

Fig. 1 is a view of an application scenario of an electric cooker product according to an embodiment of the present invention.

Fig. 2 is a view of an application scenario of an electric cooker product according to another embodiment of the present invention.

Fig. 3 is a flowchart of a control method of a home appliance system according to one embodiment of the present invention.

Fig. 4 is a flowchart of a control method of a home appliance system according to another embodiment of the present invention.

FIG. 5 is a control sequence logic diagram according to an embodiment of the present invention.

Fig. 6 is a block schematic diagram of a household appliance system in accordance with one embodiment of the present invention.

Fig. 7 is a block schematic diagram of a range hood according to one embodiment of the present invention.

Fig. 8 is a block schematic diagram of an electric cooker according to one embodiment of the invention.

Reference numerals: the range hood 100, the electric cooker 200, the first controller 110, the first communication module 120, the second controller 210, and the second communication module 220.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

A household appliance system, a control method thereof, a range hood, and an electric cooker according to embodiments of the present invention will be described below with reference to the accompanying drawings.

In an embodiment of the invention, the household appliance system comprises a range hood and an electric cooker, and the range hood and the electric cooker can be communicated with each other.

Specifically, as shown in fig. 1 and 2, the electric cooking device may be an induction cooker, a multi-head induction cooker or a gas cooker, and the electric cooking device and the range hood may be integrally disposed, and the range hood and the electric cooking device may communicate with each other in a wireless manner.

Fig. 3 is a flowchart of a control method of a home appliance system according to one embodiment of the present invention. As shown in fig. 3, the control method of the home appliance system includes the steps of:

and S1, acquiring the current cooking mode of the electric cooker when the electric cooker is started and starts to cook.

Specifically, when an electric cooker (such as an induction cooker) is started and starts a cooking work, the electric cooker may acquire a current cooking mode of the electric cooker in real time. The cooking modes can include a cooking mode, a water boiling mode, a porridge cooking mode, a soup cooking mode and the like.

And S2, judging whether to automatically start the range hood to work according to the current cooking mode of the electric cooker.

It should be understood that, when the electric cooking device communicates with the range hood in a wireless manner, the electric cooking device may include a wireless transmitter for transmitting a wireless signal to the range hood, and meanwhile, the range hood may include a wireless receiver for receiving the wireless signal transmitted by the electric cooking device. Wherein, the wireless signal can comprise a starting instruction of the range hood. For example, when a user starts the electric cooker and starts to cook, the electric cooker acquires the current cooking mode of the electric cooker, judges whether to automatically start the range hood to work according to the current cooking mode, and sends a starting instruction of the range hood to the wireless receiver of the range hood through the wireless transmitter when judging that the range hood needs to be started to work.

In one embodiment of the present invention, the determining whether to start the range hood to work according to the cooking mode of the electric cooker includes: and when the current cooking mode of the electric cooker is a cooking mode, controlling the range hood to operate in a low-speed working mode.

That is to say, after the electric cooker acquires the current cooking mode, whether the current cooking mode is a cooking mode is judged, if the current cooking mode is judged to be the cooking mode, a starting instruction of the range hood is sent to the range hood through the wireless transmitter, and then the range hood controls the range hood to operate in a low-speed working mode according to the starting instruction.

In order to further improve the experience of the user, in one embodiment of the invention, after the electric cooker is started and starts to cook, the range hood is also controlled according to a manual control instruction.

Particularly, if the electric cooker judges that the current cooking mode is not a cooking mode, the user can work through manually controlling the range hood according to the self requirement. For example, when the electric cooker determines that the current cooking mode is the porridge cooking mode, the user may manually start the range hood when water is boiling, and control the range hood to operate in the low-speed operation mode. Therefore, unnecessary energy consumption can be reduced, namely, energy waste is reduced.

It can be understood that when the electric cooker is used for cooking porridge, a user can also choose not to manually perform any operation on the range hood, namely not start the range hood.

In order to further improve the user experience, in an embodiment of the present invention, as shown in fig. 4, after the range hood operates in the low speed operation mode, the method may further include the following steps:

and S21, judging whether the pot bottom temperature of the electric cooker is greater than a first preset temperature. The first preset temperature may be a factory-set temperature of the electric cooker, or may be set by a user subsequently.

It should be understood that the electric cooker in this embodiment may include a temperature sensor for detecting the bottom temperature of the electric cooker.

And S22, if the temperature of the bottom of the electric cooker is judged to be higher than the first preset temperature, controlling the range hood to switch to a high-speed working mode to operate. The first preset temperature can be calibrated according to actual conditions, and can also be factory set temperature of the range hood.

Specifically, after the range hood operates in a low-speed working mode, when the pot bottom temperature of the electric cooking device detected by the temperature sensor is higher than a first preset temperature, the electric cooking device sends a mode switching instruction of the range hood to the range hood through the wireless transmitter, and then, when the range hood receives a wireless signal sent by the electric cooking device through the wireless receiver, the mode switching instruction of the range hood is obtained according to the wireless signal, and the range hood is controlled to be switched to the high-speed working mode to operate according to the mode switching instruction. And when the pot bottom temperature of the electric cooker detected by the temperature sensor is less than or equal to a first preset temperature, the electric cooker does not send a mode switching instruction to the range hood, and the range hood continues to operate in a low-speed working mode.

In one embodiment of the invention, after the range hood is started to work, if the electric cooker finishes the cooking work, the range hood is controlled to be closed after the electric cooker is closed for a first preset time. The first preset time can be calibrated according to actual conditions, and can also be factory set time of the range hood.

Specifically, the electric cooker can be an electromagnetic oven, an electromagnetic oven or a gas stove with an electromagnetic valve for controlling gas supply, the gas stove realizes firepower control adjustment by controlling the supply amount of gas through the electromagnetic valve according to a cooking mode after the cooking mode is selected, when the electric cooker finishes cooking work (such as closing the electromagnetic oven), the electric cooker sends a closing instruction of the range hood to the range hood through the wireless transmitter, and when the range hood receives the closing instruction sent by the electric cooker through the wireless receiver, the range hood cannot be immediately closed, but is closed after continuously operating for a period of time in the current working mode.

Further, in an embodiment of the present invention, when the electric cooker is turned off, the range hood is further controlled to operate in the low speed operation mode for a first preset time and then be turned off, that is, when the electric cooker is turned off, the range hood may be switched to the low speed operation mode to operate in the low speed operation mode for the first preset time and then be turned off, or may be continuously operated in the low speed operation mode for the first preset time and then be turned off after operating in the low speed operation mode.

That is to say, when the electric cooking device finishes the cooking work (such as closing the induction cooker), the electric cooking device sends the closing instruction of the range hood to the range hood through the wireless transmitter, and when the range hood receives the closing instruction sent by the electric cooking device through the wireless receiver, the range hood is not immediately closed, but the current working mode is judged. If the current working mode is the high-speed working mode, the working mode is switched to the low-speed working mode, and the working mode is closed after running for a period of time; if the current working mode is the low-speed working mode, the current working mode is kept to operate for a period of time and then is closed.

In the embodiment of the invention, after the range hood is started to work, if the electric cooker finishes the cooking work, the range hood can be controlled according to the manual control instruction.

Specifically, when the electric cooker finishes cooking (such as closing the induction cooker), the user closes the range hood according to the self requirement through a manual control instruction.

According to a specific example of the present invention, as shown in fig. 5, the control method of the household appliance system may include the steps of:

and S101, starting cooking.

And S102, judging whether the cooking mode is a cooking function, namely judging whether the current cooking mode is a cooking mode. If yes, go to step S103; if not, step S108 is performed.

And S103, starting and controlling the range hood to operate in a low-speed mode.

And S104, judging whether the pot bottom temperature of the electric cooker is higher than a first preset temperature by the electric cooker. If yes, go to step S105; if not, return to step S103.

And S105, controlling the range hood to operate in a high-speed mode.

And S106, judging whether the electric cooker is turned off or not. If yes, go to step S107; if not, return to step S105.

S107, closing the range hood in a low-speed delayed mode, namely controlling the range hood to operate for a period of time in a low-speed mode, and then closing the range hood.

And S108, whether the range hood is manually started or not. If yes, go to step S110; if not, step S109 is performed.

And S109, the range hood does not work.

And S110, starting the range hood according to a manual program, namely starting the range hood according to a manual control instruction.

And S111, judging whether the range hood is manually closed. If yes, go to step S112; if not, return to step S106.

And S112, manually closing the range hood.

According to the control method of the household appliance system, when the electric cooker is started and starts to cook, the current cooking mode of the electric cooker is obtained, whether the range hood is started to work or not is judged according to the current cooking mode of the electric cooker, and after the range hood is started to work, if the electric cooker finishes cooking work, the range hood is controlled to be closed after the electric cooker is closed for the first preset time. Therefore, the working state of the range hood can be controlled according to the current cooking mode of the electric cooker, so that the range hood does not need to be manually controlled, convenience is brought to a user, the oil fume extraction effect can be improved, and the waste of energy is avoided.

In order to realize the embodiment, the invention further provides a household appliance system.

Fig. 6 is a block schematic diagram of a household appliance system in accordance with one embodiment of the present invention. As shown in fig. 6, the household appliance system includes a range hood 100 and an electric cooker 200, wherein the range hood 100 includes a first controller 110 and a first communication module 120, the electric cooker 200 includes a second controller 210 and a second communication module 220, and the first communication module 120 communicates with the second communication module 220.

In some embodiments of the present invention, as shown in fig. 1 and 2, the electric cooking device 200 may be an induction cooker or a gas cooker, and the induction cooker is integrated with the range hood 100. After the gas stove selects the cooking mode, the supply amount of gas is controlled by the electromagnetic valve according to the cooking mode so as to realize firepower control and regulation.

Specifically, when the electric cooking device 200 is started and starts to cook, the second controller 210 obtains the current cooking mode of the electric cooking device 200, determines whether to start the range hood 100 to work according to the current cooking mode of the electric cooking device 200, and sends a start instruction to the first communication module 120 through the second communication module 220 when it is determined that the range hood 100 needs to be started to work. The cooking modes can include a cooking mode, a porridge cooking mode, a soup cooking mode and the like.

In one embodiment of the present invention, the first communication module 120 is a wireless receiving module, the second communication module 220 is a wireless transmitting module, the wireless receiving module can be a wireless receiver, and the wireless transmitting module can be a wireless transmitter. The first communication module 120 and the second communication module 220 communicate with each other in a wireless manner.

For example, when a user starts the electric cooker 200 and starts a cooking operation, the second controller 210 obtains a current cooking mode of the electric cooker 200, determines whether to start the range hood 100 to operate according to the current cooking mode, and sends a start instruction to the first communication module 120 of the range hood through the second communication module 220 when determining that the range hood 100 needs to be started to operate.

The first controller 110 controls the range hood 100 to start to work according to the start instruction received by the first communication module 120, and controls the range hood 100 to close after the electric cooking device 200 finishes the cooking work and closes for a first preset time.

In an embodiment of the present invention, when the current cooking mode of the electric cooker 200 is the cooking mode, the first controller 110 controls the range hood 100 to operate in the low-speed operation mode according to the start instruction received by the first communication module 120.

That is, after the second controller 210 acquires the current cooking mode of the electric cooker 200, it is determined whether the current cooking mode of the electric cooker 200 is the cooking mode. If the current cooking mode of the cooker 200 is judged to be the cooking mode, the second communication module 220 sends the start instruction to the first communication module 120, and then the first controller 110 controls the range hood 100 to operate in the low-speed operation mode according to the start instruction received by the first communication module 120.

In order to further improve the user experience, in an embodiment of the present invention, after electric cooker 200 is started and starts a cooking operation, first controller 110 further controls range hood 100 according to a manual control instruction.

Specifically, if the second controller 210 determines that the current cooking mode of the electric cooker 200 is not the cooking mode, the user may manually control the range hood 100 to operate according to his/her own needs. For example, when the second controller 210 determines that the current cooking mode of the electric cooker 200 is the porridge cooking mode, the user may manually start the range hood 100 when water is boiled, and control the range hood 100 to operate in the low speed operation mode. Therefore, unnecessary energy consumption can be reduced, namely, energy waste is reduced.

It is understood that the user may not activate the range hood 100 while cooking porridge using the electric cooker 200.

In order to further improve the user experience, in an embodiment of the present invention, after the range hood 100 operates in the low-speed operating mode, the second controller 210 further determines whether the pan bottom temperature of the electric cooker 200 is greater than a first preset temperature, and when the pan bottom temperature of the electric cooker 200 is determined to be greater than the first preset temperature, the second controller 210 sends a mode switching instruction to the first communication module 120 through the second communication module 220, and the first controller 110 controls the range hood 100 to switch to the high-speed operating mode according to the mode switching instruction received by the first communication module 120. Wherein, electric cooking device 200 may comprise a temperature sensor for detecting the temperature of the bottom of electric cooking device 200.

Specifically, after the range hood 100 operates in the low-speed operating mode, when the second controller 210 determines that the pan bottom temperature of the electric cooking device 200 is greater than a first preset temperature, the second controller 210 sends a mode switching instruction of the range hood 100 to the first communication module 120 of the range hood 100 through the second communication module 220, and then the first controller 110 of the range hood 100 controls the range hood 100 to switch to the high-speed operating mode according to the mode switching instruction received by the first communication module 120. When the second controller 210 determines that the pan bottom temperature of the electric cooker 200 is less than or equal to the first preset temperature, the second communication module 220 of the electric cooker 200 does not send a mode switching instruction to the range hood 100, and the range hood 100 continues to operate in the low-speed operating mode.

When the electric cooker 200 finishes the cooking operation (e.g., closes the induction cooker), the second communication module 220 of the electric cooker 200 sends a closing instruction of the range hood 100 to the first communication module 120 of the range hood 100, and when the first controller 110 of the range hood 100 receives the closing instruction according to the first communication module 120, the range hood 100 is not immediately closed, but the range hood 100 is controlled to continue to operate in the current operating mode for a period of time and then is closed.

Further, in an embodiment of the present invention, after the range hood 100 operates in the high speed operation mode, when the electric cooker 200 is turned off, the first controller 110 further controls the range hood 100 to switch to the low speed operation mode.

That is to say, when the electric cooking device 200 finishes the cooking operation (for example, turns off the induction cooker), the electric cooking device 200 sends the closing instruction of the range hood 100 to the first communication module 120 of the range hood 100 through the second communication module 220, and when the first controller 110 of the range hood 100 receives the closing instruction through the first communication module 120, the range hood 100 is not immediately turned off, but the current operating mode of the range hood 100 is determined. If the current working mode of the range hood 100 is the high-speed working mode, the working mode of the range hood 100 is switched to the low-speed working mode, and the range hood is closed after running for a period of time; if the current operating mode of the range hood 100 is the low-speed operating mode, the range hood is turned off after the current operating mode is kept running for a period of time.

In the embodiment of the present invention, after the range hood 100 is started to operate, if the electric cooker 200 finishes the cooking operation, the first controller 110 may further control the range hood 100 according to the manual control instruction.

That is, when the electric cooker 200 finishes the cooking work (e.g., turns off the induction cooker), the user manually controls the range hood to turn off according to the user's own needs.

According to the household appliance system provided by the embodiment of the invention, when the electric cooker is started and starts to cook, the second controller acquires the current cooking mode of the electric cooker, judges whether the range hood is started to work or not according to the current cooking mode of the electric cooker, sends the starting instruction to the first communication module through the second communication module when the range hood is judged to be required to be started, then the first controller controls the range hood to start to work according to the starting instruction received by the first communication module, and controls the range hood to be closed after the electric cooker finishes cooking work and closes the first preset time. Therefore, the working state of the range hood can be controlled according to the current cooking mode of the electric cooker, so that the range hood does not need to be manually controlled, convenience is brought to a user, the oil fume extraction effect can be improved, and the waste of energy is avoided.

In order to realize the embodiment, the invention further provides the range hood.

Fig. 7 is a block schematic diagram of a range hood according to one embodiment of the present invention. As shown in fig. 7, the range hood includes a first communication module 120 and a first controller 110.

Specifically, the first communication module 120 is configured to communicate with the electric cooking device to receive a control instruction sent by the electric cooking device, where when the electric cooking device is started and starts to cook, the electric cooking device determines that the range hood needs to be started to work according to the current cooking mode, and sends the start instruction to the first communication module 120.

The first communication module 120 may be a wireless receiving module to perform wireless communication with the electric cooking device, and the wireless receiving module may be a wireless receiver.

Specifically, when the electric cooking device is started and starts to cook, the electric cooking device obtains the current cooking mode, and determines whether to start the range hood to work according to the current cooking mode, and sends a start instruction to the first communication module 120 of the range hood when determining that the range hood needs to be started to work. The cooking modes can include a cooking mode, a porridge cooking mode, a soup cooking mode and the like.

The first controller 110 is connected to the first communication module 120, and the first controller 110 controls the range hood to start to operate according to the start instruction received by the first communication module 120, and controls the range hood to close after the electric cooker finishes cooking and closes for a first preset time.

In an embodiment of the present invention, when the current cooking state of the electric cooker is the cooking state, the first controller 110 controls the range hood to operate in the low-speed operation mode according to the start instruction received by the first communication module 120.

Specifically, after the electric cooker acquires the current cooking mode, whether the current cooking mode is a cooking mode is judged. If the current cooking mode is the cooking mode, the starting instruction is sent to the first communication module 120, and then the first controller 110 controls the range hood to operate in the low-speed working mode according to the starting instruction received by the first communication module 120.

In order to further improve the user experience, in an embodiment of the present invention, after the electric cooker is started and starts to cook, the first controller 110 further controls the range hood according to the manual control instruction.

Particularly, if the electric cooker judges that the current cooking mode is not the cooking mode, the user can work through manually controlling the range hood according to the self requirement. For example, when the electric cooker determines that the current cooking state is the porridge cooking mode, the user can manually control the range hood to operate in the low-speed operation mode when the water is boiling. . Therefore, unnecessary energy consumption can be reduced, namely, energy waste is reduced.

It can be understood that the user may not start the range hood when cooking porridge using the electric cooker.

In order to further improve the user experience, in an embodiment of the present invention, after the range hood operates in the low-speed operation mode, if the pan bottom temperature of the electric cooker is greater than the first preset temperature, the electric cooker sends a mode switching command to the first communication module 120, and the first controller 110 controls the range hood to switch to the high-speed operation mode according to the mode switching command received by the first communication module 120.

It is understood that the electric cooker may comprise a temperature sensor for detecting the bottom temperature of the electric cooker.

Specifically, after the range hood operates in the low-speed operating mode, when the electric cooker determines through the temperature sensor that the pan bottom temperature of the electric cooker is greater than a first preset temperature, the electric cooker sends a mode switching instruction of the range hood to the first communication module 120 of the range hood, and then the first controller 110 of the range hood controls the range hood to switch to the high-speed operating mode according to the mode switching instruction received by the first communication module 120. And when the electric cooker judges that the pot bottom temperature of the electric cooker is less than or equal to the first preset temperature through the temperature sensor, the electric cooker does not send a mode switching instruction to the range hood, and the range hood continues to operate in a low-speed working mode.

When the electric cooker finishes cooking (for example, closes the induction cooker), the electric cooker sends a closing instruction of the range hood to the first communication module 120 of the range hood, and when the first controller 110 of the range hood receives the closing instruction according to the first communication module 120, the range hood is not immediately closed, but is controlled to continue to operate in the current working mode for a period of time and then be closed.

Further, in an embodiment of the present invention, after the range hood operates in the high speed operation mode, when the electric cooker is turned off, the first controller 110 further controls the range hood to switch to the low speed operation mode.

That is to say, when the electric cooking device finishes the cooking operation (for example, closes the induction cooker), the electric cooking device sends the closing instruction of the range hood to the first communication module 120 of the range hood, and when the first controller 110 of the range hood receives the closing instruction through the first communication module 120, the range hood is not immediately closed, but the current operating mode of the range hood is determined. If the current working mode of the range hood is a high-speed working mode, switching the working mode of the range hood into a low-speed working mode, and closing after running for a period of time; if the current working mode of the range hood is a low-speed working mode, the range hood is closed after keeping the current working mode for a period of time.

In the embodiment of the present invention, after the range hood is started to operate, if the electric cooker finishes the cooking operation, the first controller 110 may further control the range hood according to the manual control instruction.

That is to say, when the electric cooking device finishes cooking (for example, the induction cooker is turned off), the user controls the range hood to be turned off manually according to the self requirement.

According to the range hood provided by the embodiment of the invention, when the electric cooker is started and starts to cook, and the electric cooker judges that the range hood needs to be started to work according to the current cooking mode, the starting instruction is sent to the first communication module, then the first controller controls the range hood to be started to work according to the starting instruction received by the first communication module, and the range hood is controlled to be closed after the electric cooker finishes cooking and is closed for the first preset time. Therefore, the working state of the range hood can be controlled according to the current cooking mode of the electric cooker, so that the range hood does not need to be manually controlled, convenience is brought to a user, the oil fume extraction effect can be improved, and the waste of energy is avoided.

In order to realize the embodiment, the invention further provides the electric cooker.

Fig. 8 is a block schematic diagram of an electric cooker according to one embodiment of the invention. As shown in fig. 8, the electric cooker includes a second communication module 220 and a second controller 210.

Specifically, the second communication module 220 is used for communicating with the range hood to send a control command to the range hood.

In one embodiment of the present invention, as shown in fig. 1 and 2, the electric cooking device 200 may be an induction cooker or a gas cooker, and the induction cooker is integrated with the range hood 100. After the gas stove selects the cooking mode, the supply amount of gas is controlled by the electromagnetic valve according to the cooking mode so as to realize firepower control and regulation. The integrated arrangement includes forming a common associated control means.

The second controller 210 is configured to obtain a current cooking mode of the electric cooker when the electric cooker is started and starts to cook, send a start instruction to the range hood through the second communication module 220 when it is determined that the range hood needs to be started according to the current cooking mode of the electric cooker, so that the range hood is started to operate, and send a close instruction to the range hood through the second communication module 220 when the electric cooker finishes cooking, so that the range hood is closed after a first preset time. Wherein the second controller 210 is connected to the second communication module 220. Wherein, the cooking state can comprise a cooking state of cooking dishes, a cooking state of cooking porridge, a cooking state of cooking soup and the like.

The second communication module 220 can be a wireless transmitting module for performing wireless communication with the range hood. The wireless transmission module may be a wireless transmitter.

Specifically, when the electric cooking device is started and starts to cook, the second controller 210 obtains a current cooking mode of the electric cooking device, and determines whether to start the range hood to work according to the current cooking mode, and sends a start instruction to the range hood through the second communication module 220 when determining that the range hood needs to be started to work. And then the range hood controls the start of the range hood according to the start instruction sent by the second communication module 220.

In an embodiment of the present invention, when the current cooking mode of the electric cooker is the cooking mode, the second controller 210 sends a low-speed operation command to the range hood through the second communication module 220, so that the range hood operates in the low-speed operation mode.

Specifically, after the second controller 210 acquires the current cooking state of the electric cooker, it is determined whether the current cooking mode of the electric cooker 200 is the cooking mode. If the current cooking mode of the electric cooker is judged to be the cooking mode, the low-speed working instruction is sent to the range hood through the second communication module 220, and then the range hood controls the range hood to operate in the low-speed working mode according to the received low-speed working instruction.

In order to further improve the user experience, in an embodiment of the present invention, after the range hood operates in the low-speed operating mode, the second controller 210 further determines whether the pan bottom temperature of the electric cooker is greater than a first preset temperature, and when it is determined that the pan bottom temperature of the electric cooker is greater than the first preset temperature, the second controller 210 sends a mode switching instruction to the range hood through the second communication module 220, so that the range hood switches to the high-speed operating mode to operate.

It is understood that the electric cooker in this embodiment may include a temperature sensor for detecting the bottom temperature of the electric cooker.

Specifically, after the range hood operates in the low-speed operating mode, when the second controller 210 determines that the pan bottom temperature of the electric cooker is greater than the first preset temperature through the temperature sensor, the second controller 210 sends a mode switching instruction of the range hood to the range hood through the second communication module 220, and then the range hood controls the range hood to switch to the high-speed operating mode according to the received mode switching instruction. When the second controller 210 determines that the pan bottom temperature of the electric cooker is less than or equal to the first preset temperature through the temperature sensor, the second communication module 220 of the electric cooker does not send a mode switching instruction to the range hood, and the range hood continues to operate in the low-speed working mode.

When the electric cooker finishes cooking (for example, the induction cooker is turned off), the second communication module 220 of the electric cooker sends a closing instruction of the range hood to the range hood, and when the range hood receives the closing instruction, the range hood is not immediately closed, but is continuously operated in the current working mode for a period of time and then is closed.

Further, in an embodiment of the present invention, after the range hood operates in the high-speed operating mode, when the electric cooker is turned off, the second controller 210 sends a low-speed operating command to the range hood through the second communication module 220, so that the range hood switches to the low-speed operating mode to operate.

Specifically, when the electric cooker finishes the cooking operation (for example, closes the induction cooker), the second communication module 220 of the electric cooker sends a closing instruction of the range hood to the range hood, and when the range hood receives the closing instruction, the range hood is not immediately closed, but the current operating mode of the range hood is determined. If the current working mode of the range hood is a high-speed working mode, switching the working mode of the range hood into a low-speed working mode, and closing after running for a period of time; if the current working mode of the range hood is the low-speed working mode, the range hood is closed after keeping the current working mode to operate for a period of time.

In the embodiment of the invention, after the range hood is started to work, if the cooker finishes the cooking work, the range hood can be controlled according to the manual control instruction.

That is to say, when the electric cooking device finishes cooking (for example, the induction cooker is turned off), the user controls the range hood to be turned off manually according to the self requirement.

According to the electric cooker provided by the embodiment of the invention, the second controller acquires the current cooking mode of the electric cooker when the electric cooker is started and starts to cook, and sends the starting instruction to the range hood through the second communication module when the range hood needs to be started according to the current cooking mode of the electric cooker, so that the range hood is started to work, and sends the closing instruction to the range hood through the second communication module when the electric cooker finishes cooking, so that the range hood is closed after the first preset time. From this, electric cooking ware can control range hood's operating condition according to current culinary art mode, need not user manual control range hood, has brought the facility for the user, can promote the oil pumping cigarette effect simultaneously to the waste of the energy has been avoided.

In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the invention and to simplify the description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and are therefore not to be considered limiting of the invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the present invention, unless otherwise expressly stated or limited, the first feature "on" or "under" the second feature may be directly contacting the first and second features or indirectly contacting the first and second features through an intermediate. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

Although embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art within the scope of the present invention.

Claims (23)

1. A control method of a household appliance system is characterized in that the household appliance system comprises a range hood and an electric cooker, the range hood and the electric cooker are communicated with each other, and the control method comprises the following steps:

when the electric cooker is started and starts to cook, acquiring a current cooking mode of the electric cooker;

and judging whether the range hood is automatically started to work according to the current cooking mode of the electric cooker, wherein when the current cooking mode of the electric cooker is not a cooking mode, the range hood is controlled according to a manual control instruction.

2. Control method of a household appliance system according to claim 1,

after the range hood is started to work, if the electric cooker finishes the cooking work, the range hood is controlled to be closed after the electric cooker is closed for a first preset time.

3. The control method of household appliance system according to claim 1, wherein determining whether to start the range hood to operate according to the cooking mode of the electric cooker comprises:

and when the current cooking mode of the electric cooker is a cooking mode, controlling the range hood to operate in a low-speed working mode.

4. The control method of household appliance system according to claim 3, wherein after the range hood operates in the low speed operation mode, determining whether to start the range hood to operate according to the cooking mode of the electric cooker, further comprising:

judging whether the pot bottom temperature of the electric cooker is greater than a first preset temperature or not;

and if the temperature of the bottom of the electric cooker is judged to be higher than the first preset temperature, controlling the range hood to be switched to a high-speed working mode to operate.

5. The control method of household appliance system according to claim 2, wherein when said electric cooker is turned off, said range hood is further controlled to operate in a low speed operation mode for said first preset time and then turned off.

6. The control method of household appliance system according to any one of claims 1-5, wherein said range hood is further controlled according to a manual control command after said electric cooker is started and starts to cook.

7. A household appliance system is characterized by comprising a range hood and an electric cooker, wherein the range hood comprises a first controller and a first communication module, the electric cooker comprises a second controller and a second communication module, the first communication module and the second communication module are communicated with each other,

when the electric cooker is started and starts to cook, the second controller acquires the current cooking mode of the electric cooker, judges whether the range hood is started to work or not according to the current cooking mode of the electric cooker, and sends a starting instruction to the first communication module through the second communication module when the range hood is judged to be required to be started;

the first controller controls the range hood to start to work according to the starting instruction received by the first communication module, and controls the range hood to close after the electric cooker finishes the cooking work and closes for a first preset time, wherein when the current cooking mode of the electric cooker is not a cooking mode, the first controller controls the range hood according to a manual control instruction.

8. The household appliance system according to claim 7, wherein when the current cooking mode of the electric cooker is a cooking mode, the first controller controls the range hood to operate in a low-speed operation mode according to the start instruction received by the first communication module.

9. The household appliance system according to claim 8, wherein after the range hood operates in the low-speed operation mode, the second controller further determines whether a pan bottom temperature of the electric cooker is higher than a first preset temperature, and when the pan bottom temperature of the electric cooker is determined to be higher than the first preset temperature, the second controller sends a mode switching command to the first communication module through the second communication module, and the first controller controls the range hood to switch to the high-speed operation mode according to the mode switching command received by the first communication module.

10. The household appliance system according to any one of claims 7 to 9, wherein the first controller further controls the range hood to operate in a low speed mode of operation when the electric cooker is turned off.

11. The household appliance system according to any one of claims 7 to 9, wherein the first controller further controls the range hood according to a manual control command after the electric cooker is started and starts a cooking operation.

12. The household appliance system according to claim 7, wherein the first communication module is a wireless receiving module and the second communication module is a wireless transmitting module.

13. The household appliance system according to claim 7, wherein the electric cooking device is an induction cooker or a gas cooker, and the induction cooker is integrated with the range hood.

14. A range hood, comprising:

the first communication module is used for communicating with an electric cooker to receive a control instruction sent by the electric cooker, wherein when the electric cooker is started and starts to cook, the electric cooker judges that the range hood needs to be started to work according to the current cooking mode, and sends the starting instruction to the first communication module;

the first controller is connected with the first communication module, controls the range hood to start to work according to a starting instruction received by the first communication module, and controls the range hood to close after the electric cooker finishes the cooking work and closes for a first preset time, wherein when the current cooking mode of the electric cooker is not a cooking mode, the first controller controls the range hood according to a manual control instruction.

15. The range hood of claim 14, wherein when the current cooking mode of the electric cooker is a cooking mode, the first controller controls the range hood to operate in a low-speed operation mode according to the start instruction received by the first communication module.

16. The range hood of claim 15, wherein after the range hood operates in the low-speed operating mode, if the pan bottom temperature of the electric cooker is greater than a first preset temperature, the electric cooker sends a mode switching command to the first communication module, and the first controller controls the range hood to switch to the high-speed operating mode according to the mode switching command received by the first communication module.

17. The range hood of claim 14, wherein the first controller further controls the range hood to operate in a low speed mode of operation when the electric cooker is off.

18. The range hood of any one of claims 14-17, wherein the first controller further controls the range hood according to a manual control command after the electric cooker is started and starts a cooking operation.

19. An electric cooker, characterized by comprising:

the second communication module is used for communicating with the range hood to send a control instruction to the range hood;

the second controller is connected with the second communication module and used for acquiring the current cooking mode of the electric cooker when the electric cooker is started and starts to cook, sending a starting instruction to the range hood through the second communication module when the range hood is judged to be required to be started according to the current cooking mode of the electric cooker so as to start the range hood to work, and sending a closing instruction to the range hood through the second communication module when the electric cooker finishes the cooking work so as to close the range hood after a first preset time, wherein when the current cooking mode of the electric cooker is not a cooking mode, the range hood is controlled according to a manual control instruction.

20. The electric cooker of claim 19, wherein when the current cooking mode of the electric cooker is a cooking mode, the second controller sends a low-speed operation command to the range hood through the second communication module so that the range hood operates in a low-speed operation mode.

21. The electric cooking device of claim 20, wherein after the range hood operates in the low-speed operating mode, the second controller further determines whether a pan bottom temperature of the electric cooking device is greater than a first preset temperature, and when the pan bottom temperature of the electric cooking device is determined to be greater than the first preset temperature, the second controller sends a mode switching command to the range hood through the second communication module, so that the range hood switches to the high-speed operating mode.

22. The electric cooker of claim 19, wherein when the electric cooker is turned off, the second controller sends an underspeed operation command to the range hood through the second communication module to operate the range hood in an underspeed operation mode.

23. The electric cooking appliance according to any one of claims 19 to 22, wherein the electric cooking appliance is an induction cooker or a gas cooker, and the electric cooking appliance is integrated with the range hood.

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