CN111810991A - Integrated cooker control method, integrated cooker system and storage medium - Google Patents

Abstract

The invention discloses an integrated cooker control method, an integrated cooker system and a storage medium. The integrated cooker system comprises an integrated cooker body and a human body induction assembly; the integrated cooker control method comprises the following steps: acquiring a sensing signal measured by a human body sensing assembly; and controlling the integrated cooker body to start a safe mode according to the sensing signal. According to the invention, the human body induction component can trigger the sensing signal when sensing the user, the control device identifies the sensing signal according to the set rule, and controls the integrated stove body to start the safety mode according to the identification result, so that the potential safety hazard of the integrated stove system can be eliminated, and the safety of the integrated stove system is improved.

Description

Integrated cooker control method, integrated cooker system and storage medium

Technical Field

The invention relates to the technical field of integrated cookers, in particular to an integrated cooker control method, an integrated cooker system and a storage medium.

Background

The integrated kitchen is a multifunctional kitchen appliance, integrates the functions of kitchen equipment such as a range hood, a gas stove, an induction cooker, a disinfection cabinet, a steam oven and the like, and has the advantages of kitchen space saving, good oil smoke cleaning effect, intelligent linkage control and the like. However, in the existing integrated cooker, the setting height of the cooker knob is generally low and easy to be touched by children, and when the children turn the knob, the flame can be turned on, thus a great potential safety hazard is easily generated.

Disclosure of Invention

The invention mainly aims to provide an integrated cooker control method, an integrated cooker system and a storage medium, and aims to solve the problem of potential safety hazards of the existing integrated cooker.

In order to achieve the above object, the present invention provides an integrated cooker control method, which is applied to an integrated cooker system, wherein the integrated cooker system comprises an integrated cooker body and a human body induction assembly; the integrated cooker control method comprises the following steps:

acquiring a sensing signal measured by the human body sensing assembly;

and controlling the integrated cooker body to start a safety mode according to the sensing signal.

Optionally, the step of controlling the integrated cooker body to start a safety mode according to the sensing signal includes:

judging whether the user is a first user or not according to the sensing signal;

and controlling the integrated cooker body to start a safety mode when the user is determined to be the first user.

Optionally, the human body sensing assembly comprises a first sensor; the integrated cooker system further comprises a shielding structure and a driving device for driving the shielding structure to move, wherein the shielding structure can be driven to a shielding position by the driving device so as to shield a lower area of a sensing area of the first sensor;

the step of judging whether the user is the first user according to the sensing signal comprises the following steps:

controlling the driving device to work so that the shielding structure moves to the shielding position;

and judging whether the user is the first user or not according to the sensing signal of the first sensor.

Optionally, the human body sensing assembly further comprises a second sensor, and a sensing area of the second sensor is located below the set height;

the step of determining whether the user is a first user according to the sensing signal of the first sensor comprises:

judging whether the user is a first user or not according to the sensing signal of the first sensor and the sensing signal of the second sensor;

determining that the user is a first user when the user is sensed by the second sensor and not sensed by the first sensor.

Optionally, the shielding structure is arranged below the first inductor, one end of the shielding structure is rotatably arranged on the integrated cooker body, so that the other end of the shielding structure is rotated to a position close to the integrated cooker body and rotated to a position far away from the shielding position of the integrated cooker body.

Optionally, in the rotation stroke of the shielding structure, a plurality of shielding positions are provided.

Optionally, the integrated cooker system further comprises a smoke guide plate arranged at the air inlet for opening and closing the integrated cooker body, and the smoke guide plate is arranged between the first inductor and the second inductor;

the smoke guide plate forms the shielding structure.

Optionally, the human body sensing assembly includes a first sensor and a second sensor, a sensing area of the first sensor is located above a set height, and a sensing area of the second sensor is located below the set height;

the step of judging whether the user is the first user according to the sensing signal comprises the following steps:

judging whether the user is a first user or not according to the sensing signal of the first sensor and the sensing signal of the second sensor;

determining that the user is a first user when the user is sensed by the second sensor and not sensed by the first sensor.

Optionally, the integrated cooker system further comprises a gas channel to provide gas for the integrated cooker body;

the step of controlling the integrated cooker body to start a safety mode according to the sensing signal includes:

according to the sensing signal, controlling the ignition pulse of the integrated stove body to be closed and/or controlling the gas channel to be closed.

Optionally, the integrated cooktop system further comprises an alarm;

after the step of controlling the integrated cooker body to start a safety mode according to the sensing signal, further comprising:

and controlling the alarm to be started and sending an alarm signal.

Optionally, after the step of controlling the alarm to be turned on and sending the alarm signal, the method further includes:

judging whether the user is a second user or not according to the sensing signal of the human body sensing assembly;

and controlling the alarm to be closed when the user is determined to be a second user.

In addition, to achieve the above object, the present invention also provides an integrated cooker control system, including:

the system main body comprises an integrated cooker body and a human body induction assembly; and the number of the first and second groups,

the control device is electrically connected with the integrated cooker body and the human body induction assembly, the control device comprises a memory, a processor and an integrated cooker control program which is stored in the memory and can run on the processor, and the integrated cooker control program is configured to realize the steps of the integrated cooker control method.

Further, to achieve the above object, the present invention also proposes a storage medium having stored thereon an integrated cooker control program which, when executed by a processor, implements the steps of the integrated cooker control method as described above.

According to the technical scheme provided by the invention, the human body sensing assembly can trigger a sensing signal when sensing the user, the control device identifies the sensing signal according to the set rule, and controls the integrated cooker body to start the safe mode according to the identification result, so that the potential safety hazard of the integrated cooker system is eliminated, and the safety of the integrated cooker system is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a schematic flow chart of a control method for material transfer according to a first embodiment of the present invention;

FIG. 2 is a schematic flow chart of a control method for material transfer according to a second embodiment of the present invention;

FIG. 3 is a schematic flow chart of a control method for material transfer according to a third embodiment of the present invention;

FIG. 4 is a schematic flow chart of a control method for material transfer according to a fourth embodiment of the present invention;

FIG. 5 is a schematic flow chart of a fifth embodiment of a control method for material transfer according to the present invention;

FIG. 6 is a schematic flow chart of a control method for material transfer according to a sixth embodiment of the present invention;

FIG. 7 is a schematic flow chart of a seventh embodiment of a control method for material transfer according to the present invention;

FIG. 8 is a schematic flow chart of an eighth embodiment of a material transfer control method according to the present invention

Fig. 9 is a schematic structural diagram of a control device of a hardware operating environment according to an embodiment of the present invention;

FIG. 10 is a schematic perspective view of an embodiment of an integrated stove system provided by the present invention, wherein the smoke deflector is in a closed position;

FIG. 11 is a perspective view of the integrated stove system of FIG. 10 with the smoke deflector in an open position;

fig. 12 is a partial structural view of the integrated cooker system of fig. 11;

fig. 13 is a schematic cross-sectional view taken along line a-a in fig. 12.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the embodiments described below can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium (e.g., ROM/RAM, magnetic disk, optical disk) as described above and includes instructions for enabling a terminal device (e.g., a mobile phone, a computer, a server, or a network device) to execute the method according to the embodiments of the present invention.

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The integrated kitchen is a multifunctional kitchen appliance, can integrate the functions of kitchen equipment such as a range hood, a gas stove, an induction cooker, a disinfection cabinet, a steam oven and the like, and has the advantages of kitchen space saving, good oil smoke cleaning effect, intelligent linkage control and the like. However, in the existing integrated cooker, the installation height of operating components such as the knob of the cooker is generally low, and the operating components are easy to be touched by children.

Referring to fig. 9 to 13, the integrated cooker system includes a system main body and a control device 400, wherein the system main body includes an integrated cooker body 100 and a human body sensing device, the human body sensing device is disposed on the integrated cooker body 100, and the human body sensing device generally has a corresponding sensing region for sensing whether a user approaches the sensing region.

Referring to fig. 9, in the present embodiment, the control device 400 may include: a processor 401, e.g. a CPU, a communication bus 402, a user interface 403, a network interface 404, a memory 405. Wherein a communication bus 402 is used to enable connective communication between these components. The user interface 403 may include a Display (Display), an input unit such as a Keyboard (Keyboard), and the optional user interface 403 may also include a standard wired interface, a wireless interface. The network interface 404 may optionally include a standard wired interface, a wireless interface (e.g., WI-FI interface). The memory 405 may be a high-speed RAM memory or a non-volatile memory (e.g., a disk memory). The memory 405 may alternatively be a storage device separate from the processor 401 described above.

Those skilled in the art will appreciate that the configuration shown in fig. 9 does not constitute a limitation of the control device 400, and may include more or fewer components than shown, or some components in combination, or a different arrangement of components.

As shown in fig. 9, the memory 405, which is a kind of computer storage medium, may include therein an operating system, a network communication module, a user interface module, and an integrated cooker control program.

In the control apparatus 400 shown in fig. 9, the network interface 404 is mainly used for connecting a terminal device and performing data communication with the terminal device; the user interface 403 is mainly used for receiving input instructions of a user; the control apparatus 400 calls, through the processor 401, an integrated cooker control program stored in the memory 405, and performs the following operations:

acquiring a sensing signal measured by the human body sensing assembly;

controlling the integrated cooker body 100 to start a safety mode according to the sensing signal.

Further, the processor 401 may call the integrated cooker control program stored in the memory 405, and also perform the following operations:

the step of controlling the integrated cooker body 100 to start the safety mode according to the sensing signal includes:

judging whether the user is a first user or not according to the sensing signal;

controlling the integrated cooker body 100 to start a safety mode when it is determined that the user is the first user.

Further, the processor 401 may call the integrated cooker control program stored in the memory 405, and also perform the following operations:

the human body sensing assembly comprises a first sensor 201; the integrated cooker system further comprises a shielding structure and a driving device 302 for driving the shielding structure to move, wherein the shielding structure can be driven to a shielding position by the driving device 302 to shield a lower area of a sensing area of the first sensor 201;

the step of judging whether the user is the first user according to the sensing signal comprises the following steps:

controlling the driving device 302 to work so that the shielding structure moves to the shielding position;

according to the sensing signal of the first sensor 201, it is determined whether the user is a first user.

Further, the processor 401 may call the integrated cooker control program stored in the memory 405, and also perform the following operations:

the human body sensing assembly further comprises a second sensor 202, and a sensing area of the second sensor 202 is positioned below the set height;

the step of determining whether the user is a first user according to the sensing signal of the first sensor comprises:

judging whether the user is a first user according to the sensing signal of the first sensor 201 and the sensing signal of the second sensor 202;

further, the processor 401 may call the integrated cooker control program stored in the memory 405, and also perform the following operations:

the human body sensing assembly comprises a first sensor 201 and a second sensor 202, wherein a sensing area of the first sensor 201 is positioned above a set height, and a sensing area of the second sensor 202 is positioned below the set height;

the step of judging whether the user is the first user according to the sensing signal comprises the following steps:

judging whether the user is a first user according to the sensing signal of the first sensor 201 and the sensing signal of the second sensor 202;

determining that the user is a first user when the user is sensed by the second sensor 202 and not sensed by the first sensor 201.

Further, the processor 401 may call the integrated cooker control program stored in the memory 405, and also perform the following operations:

the integrated cooker system further includes a gas passage to provide gas to the integrated cooker body 100;

the step of controlling the integrated cooker body 100 to start the safety mode according to the sensing signal includes:

controlling the ignition pulse of the integrated cooker body 100 to be turned off and/or controlling the gas channel to be turned off according to the sensing signal.

Further, the processor 401 may call the integrated cooker control program stored in the memory 405, and also perform the following operations:

the integrated cooktop system further includes an alarm;

after the step of controlling the integrated cooker body to start a safety mode according to the sensing signal, further comprising:

and controlling the alarm to be started and sending an alarm signal.

Further, the processor 401 may call the integrated cooker control program stored in the memory 405, and also perform the following operations:

after the step of controlling the alarm to be turned on and sending out the alarm signal, the method further comprises the following steps:

judging whether the user is a second user or not according to the sensing signal of the human body sensing assembly;

and controlling the alarm to be closed when the user is determined to be a second user.

Based on the hardware structure, the invention further provides a control method for material transfer, and fig. 1 to 8 are specific embodiments of the control method for the integrated cooker provided by the invention.

In the following embodiments, the first user is, for example, a child or the like, who is less capable of identifying a group of users with a crisis, and the second user is, for example, an adult or the like.

Referring to fig. 1, in a first embodiment of the integrated cooker control method provided by the present invention, the method includes the following steps:

step S10: acquiring a sensing signal measured by the human body sensing assembly;

in this embodiment, the human body sensing component can be used for sensing whether a user exists, and it can be understood that the sensing signal triggered correspondingly is different according to the different principles of the human body sensing component. This design does not do the restriction to human response subassembly's sensing principle, can set up but not restrict to compare through the height and judge, or compare through characteristics such as face, tone quality, fingerprint and predetermine the database and distinguish first user and second user, nevertheless for facilitating understanding, and reduce the economic cost of integrated kitchen system explains all with the mode of comparing through the height and distinguishing first user and second user below, correspondingly, the sensing signal sets up to the height information that can the sensing user. The human body sensing component is, for example, a sensing device formed based on the infrared sensing principle.

Step S20: and controlling the integrated cooker body to start a safety mode according to the sensing signal.

Based on the above, after the control device 400 receives the sensing signal, the control device may control the integrated cooker body to start the safe mode when it is determined that the current detected user is the first user according to a preset rule. The specific scheme of the safety mode may be determined by default of the control device 400 or by user customization in advance, so that a part of functions that threaten the safety of the first user may be disabled in the integrated cooker system, and other functions of the integrated cooker system are not affected, which is helpful to ensure the operation safety of the first user.

Further, the step S10 includes:

step S11: and when the user is close to the integrated cooker body, acquiring a sensing signal measured by the human body induction assembly.

In this embodiment, there are various ways to determine that there is a user approaching the integrated cooker body 100, and in an embodiment, the integrated cooker system further includes a touch screen assembly disposed on a front surface of the integrated cooker body 100, and when the control device 400 receives a power-on instruction triggered based on the touch screen assembly, it may be determined that there is a user approaching the integrated cooker body 100 at present.

Of course, the human body sensing component itself may also determine that the user currently exists near the integrated cooker body 100 when triggering the sensing signal.

It should be noted that the operation of determining whether there is a user approaching is performed in real time, and may be performed when the integrated oven body 100 is not turned on, for example, in a power-off state or a standby state; also during operation of the integrated hob body 100.

Further, referring to fig. 2, in a second embodiment of the integrated cooker control method provided by the present invention, the method includes the following steps:

the step S20 includes:

step S21: judging whether the user is a first user or not according to the sensing signal;

step S22: controlling the integrated cooker body 100 to start a safety mode when it is determined that the user is the first user.

It is understood that there are various ways to determine that the user is the first user according to the sensing signal, for example, by setting a set height of a maximum threshold value for characterizing the height of the first user, which may be user-defined or default for the control device 400; the set height may be a point value, for example set to 1.2 meters; alternatively, the set height may be set to a range value, for example, 1.1 to 1.3 meters. Then:

in one embodiment, when the human body sensing component senses that the height of the user is greater than the set height, the user can be determined to be a second user; otherwise, when the height of the user sensed by the human body sensing assembly is smaller than the set height, the user can be determined to be the first user.

Or, in another embodiment, when there is a user approaching, if the human body sensing assembly does not trigger the sensing signal at the set height, it can be determined that the user is the first user; on the contrary, if the human body sensing assembly triggers the sensing signal at the set height, the user can be determined to be a second user.

Of course, when the height of the user sensed by the human body sensing assembly is exactly equal to the preset height, the height can be set as a second user or a first user according to actual requirements.

Further, referring to fig. 3, in a third embodiment of the integrated cooker control method provided by the present invention, the method includes the following steps:

the human body sensing assembly comprises a first sensor 201; the integrated cooker system further comprises a shielding structure and a driving device 302 for driving the shielding structure to move, wherein the shielding structure can be driven to a shielding position by the driving device 302 to shield a lower area of a sensing area of the first sensor 201; it is understood that the shielding structure can be arranged from bottom to top when being driven by the driving device 302 to move to the shielding position, so that when the shielding structure moves to the shielding position, the lower region of the sensing region of the first sensor 201 is just shielded. It should be noted that the lower region may be set as a region of the sensing region of the first sensor 201 that covers below the set height, so that the first sensor 201 after being shielded can sense a user higher than the set height.

The step S21 includes:

step S211: controlling the driving device 302 to work so that the shielding structure moves to the shielding position;

it is understood that when the human body sensing assembly is provided with only the first sensor 201, in order to improve the sensing accuracy, for example, L1 in fig. 10, the initial sensing area of the first sensor 201 is generally set as large as possible, i.e., extending to cover a larger area in the up-down direction and extending to cover a larger area in the horizontal direction. Specifically, the specific value of L1 is not limited, and may be specifically set to 90 ° in an embodiment. At this time, when a user approaches the integrated cooker body 100, the first sensor 201 may trigger a first sensing signal.

When the control device 400 drives the shielding structure to move to the shielding position by controlling the driving device 302, the shielding structure shields a lower region of the sensing region of the first sensor 201, the sensing region of the first sensor 201 is reduced to be not lower than a set height, as shown in L3 in fig. 11, and similarly to the above, a specific value of the L2 is not limited, and may be specifically set to 90 °, for example.

Step S212: according to the sensing signal of the first sensor 201, it is determined whether the user is a first user.

Based on the above, before and after the shielding structure is driven by the driving device 302 to move to the shielding position, if the sensing signals triggered by the first sensor 201 are consistent, that is, a user can be sensed to approach the integrated cooker body 100, it is determined that the user is a second user; if the sensing signals triggered by the first sensor 201 are different, when the shielding structure is not shielded, the first sensor 201 can sense that a user is close to the integrated cooker body 100, and when the shielding structure is shielded, the first sensor 201 cannot sense that a user is close to the integrated cooker body 100. Thus, the user can be determined to be the first user.

Further, referring to fig. 4, in a fourth embodiment of the integrated cooker control method provided by the present invention, the method includes the following steps:

the human body sensing assembly further comprises a second sensor 202, wherein a sensing area of the second sensor 202 is positioned below a set height; the set height is also the height threshold used to distinguish the first user from the second user. An upper limit position of the sensing area of the second inductor 202 may be set to the set height so that the second inductor 202 may sense a user not higher than the set height.

The step S212 includes:

step S2121: judging whether the user is a first user according to the sensing signal of the first sensor 201 and the sensing signal of the second sensor 202;

step S2122: determining that the user is a first user when the user is sensed by the second sensor 202 and not sensed by the first sensor 201.

In this embodiment, the sensing signal of the first sensor 201 and the sensing signal of the second sensor 202 may be used together as a reference for determining whether the user is the first user. As shown in fig. 10 and fig. 11, the sensing area range of the second sensor 202 is L2, which can be set to any suitable value, such as 90 °. Based on the above, when the shielding structure is driven by the driving device 302 to move to the shielding position, if the first sensor 201 does not sense that the user currently exists near the integrated cooker body 100, and the second sensor 202 senses that the user currently exists near the integrated cooker body 100, it can be considered that the user currently exists near the integrated cooker body 100, but the height of the user is too low and is lower than the sensing area of the shielded first sensor 201, and therefore, the user can be roughly considered as the first user; on the contrary, if the first sensor 201 does not sense that the user currently exists and approaches the integrated cooker body 100, and the second sensor 202 does not sense that the user currently exists and approaches the integrated cooker body 100, it may be considered that the user currently does not exist and approaches the integrated cooker body 100, and it may be that the previous user only passes through the integrated cooker body 100 and now walks away; in addition, if the first sensor 201 senses that the user currently exists and approaches the integrated cooker body 100, and the second sensor 202 does not sense that the user currently exists and approaches the integrated cooker body 100, it may be considered that the object currently approaching the integrated cooker body 100 is not a human body, and may be another object such as a bird. By the arrangement, the judgment accuracy of the integrated cooker control method is more accurate.

It should be noted that there are various moving schemes of the shielding structure, for example, in other embodiments, the shielding structure may be configured to be telescopically movable in a direction close to and away from the integrated cooker body 100, so that the length of the shielding structure protruding from the integrated cooker body 100 is adjustable, and thus the shielding structure can reach the shielding position when protruding to a set length, so as to shield the sensing area of the first sensor 201.

And in this embodiment, it can set up to be platelike to shelter from the structure, it locates to shelter from the structure the below of first inductor 201, the one end that shelters from the structure rotate install in integrated kitchen body 100, so that the other end that shelters from the structure has and rotates to being close to integrated kitchen body 100 give way the position and rotate to keeping away from integrated kitchen body 100 shelter from the position. Through the upset shelter from the structure to different angles, can correspond to adjust and shelter from the sensing area formation different degrees of sheltering from of structure to first inductor 201.

It should be noted that, in the process that the shielding structure is driven by the driving device 302 to move to the shielding position, it can be understood that the shielding degree of the shielding structure to the sensing area of the first sensor 201 is different, for example, the shielding degree is set to be gradually increased, therefore, in an embodiment, in the rotation stroke of the shielding structure, a plurality of shielding positions are provided corresponding to different turning angles of the shielding structure, and the set height can be flexibly adjusted according to different actual requirements in this embodiment by adjusting the shielding structure to different shielding positions, and can be specifically set to any height value within the range of the sensing area of the first sensor 201.

In view of the above, the shielding structure may be any structure rotatably mounted on the integrated cooker body 100, in order to simplify the structure of the integrated cooker system and improve the relevance between the functional modules in the integrated cooker system, in this embodiment, the integrated cooker body 100 is generally provided with an air inlet 103, and the air inlet 103 is generally communicated with a smoke exhaust channel; the integrated cooker system further comprises a smoke guide plate 301 which is used for opening and closing the air inlet 103 of the integrated cooker body 100; because the smoke guide plate 301 is disposed between the first sensor 201 and the second sensor 202, and the smoke guide plate 301 has the same rotation stroke as the shielding structure when the air inlet 103 is opened and closed, the smoke guide plate 301 constitutes the shielding structure. The smoke guide plate 301 is the inherent structure of the integrated cooker body 100, so that the integrated cooker system can complete the shielding of the sensing area of the first sensor 201 without additionally arranging other structures, and the structural complexity of the integrated cooker system is facilitated to be simplified.

Correspondingly, the driving device 302 may be embodied as a combination of a motor and a linkage mechanism, for example, the motor is connected to a power input end of the linkage mechanism, and a power output end of the linkage mechanism is connected to the smoke guide plate 301, which is not described in detail herein.

Further, referring to fig. 5, in a fifth embodiment of the integrated cooker control method provided by the present invention, the method includes the following steps:

the human body sensing assembly comprises a first sensor 201 and a second sensor 202, wherein a sensing area of the first sensor 201 is positioned above a set height, and a sensing area of the second sensor 202 is positioned below the set height; the set height is a height threshold used to distinguish the first user from the second user. Wherein, a lower limit position of the sensing area of the first sensor 201 may be set as the set height, so that the first sensor 201 may sense a user not lower than the set height; meanwhile, an upper limit position of the sensing area of the second sensor 202 may be set to the set height, so that the second sensor 202 may sense a user not higher than the set height.

The step S21 includes:

step S213: judging whether the user is a first user according to the sensing signal of the first sensor 201 and the sensing signal of the second sensor 202;

step S214 determines that the user is the first user when the second sensor 202 senses the user and the first sensor 201 does not sense the user.

It can be understood that, when the sensing area of the first sensor 201 is set to be higher than the set height in advance and the sensing area of the second sensor 202 is set to be lower than the set height, the purpose that the shielding structure is driven by the driving device 302 to move to the shielding position in the third embodiment can be directly achieved, and as mentioned above, the user is determined to be the first user by determining that the user is sensed by the second sensor 202 and the user is not sensed by the first sensor 201. Of course, the present embodiment is generally applicable to the situation of setting the height to be fixed, and has the characteristics of simple structure and convenient operation.

Further, referring to fig. 6, in a sixth embodiment of the integrated cooker control method provided by the present invention, the method includes the following steps:

the integrated cooker system further includes a gas passage to provide gas to the integrated cooker body 100;

the step S20 includes:

step S201: controlling an ignition pulse of the integrated cooker body 100 to be turned off and/or controlling the gas passage to be turned off when it is determined that the user is the first user.

In the present embodiment, there are a plurality of specific safety modes of the integrated cooker body 100, wherein, for example, the safety mode is set that the ignition function of the integrated cooker body 100 is disabled, so that the user cannot perform an ignition operation, it can be understood that, when the integrated cooker body 100 is in a power-off state or a standby state, the ignition function is disabled, that is, the user cannot ignite by, for example, rotating a cooker button; when the integrated cooker body 100 is in a normal operation state, for example, food is being cooked on a cooking top, the ignition function failure means that the cooker fire on the integrated cooker body 100 is turned off.

Of course, there are various ways to achieve control of the ignition function failure of the integrated range body 100, in which, for example, the ignition pulse for ignition is directly controlled to be turned off, so that the ignition operation cannot be normally performed even if there is a gas supply; or directly controlling the gas channel to be closed, so that even if the ignition pulse can be normally operated, the flame cannot be normally formed due to the absence of the gas supply; or, can combine above-mentioned two kinds of modes, control simultaneously the ignition pulse of integrated kitchen body 100 is closed and the gas channel is closed, can further improve the security performance, avoids appearing the condition that the gas leaked, or influences ignition pulse generator's life.

Further, referring to fig. 7, in a seventh embodiment of the integrated cooker control method provided by the present invention, the method includes the following steps:

the integrated cooktop system further includes an alarm;

after the step S20, the method further includes:

step S30: and controlling the alarm to be started and sending an alarm signal.

In this embodiment, after determining that the user currently approaching the integrated cooker body 100 is the first user and the ignition function of the integrated cooker body 100 has been turned off, the control device 400 may control the alarm to be turned on and to send an alarm signal in order to enable the integrated cooker system to return to the normal operating state as soon as possible and also in order to prevent the first user from continuing to trigger other functions of the integrated cooker system. The technical solution of the alarm signal may be various, for example, an indicator light flashes, an alarm message is sent to a mobile terminal associated with the integrated cooker system, or an alarm ring tone is sent. Taking the alarm signal as an alarm ring as an example, the alarm emits an alarm ring, which can quickly notify a second user in the area, so that the second user finds and takes away the first user, and the integrated cooker system is reset to a state before the first user approaches the integrated cooker body 100.

Further, referring to fig. 8, in an eighth embodiment of the integrated cooker control method provided by the present invention, the method includes the following steps:

after the step S30, the method further includes:

step S41: judging whether the user is a second user or not according to the sensing signal of the human body sensing assembly;

step S42: and controlling the alarm to be closed when the user is determined to be a second user.

In this embodiment, when the control device 400 receives the sensing signal of the human body sensing component, the user can be determined to be a second user based on the same determination method as that of the above embodiments, at this time, the alarm can be turned off, and the integrated cooker system can be reset to the initial state.

Specifically, in an embodiment, referring to fig. 10, a sensing area range of the first sensor 201 is 90 °, a sensing area range of the second sensor 202 is 90 °, when the integrated cooker body 100 is in a shutdown state or a standby state, a user approaches the integrated cooker body 100 and triggers a power-on command of the integrated cooker body, referring to fig. 11, the smoke guide plate 301 moves from a shutdown position to an open position, so that the sensing area range of the first sensor is reduced to 55 °, and if the first sensor 201 cannot sense that the user approaches and the second sensor 202 can sense that the user approaches, it is determined that the user is the first user, and the ignition function of the integrated cooker body 100 is turned off.

In another embodiment, when the integrated cooker body 100 is in a normal operating state, the smoke guide plate 301 is in an open position, the sensing area range of the first sensor 201 is 55 °, the sensing area range of the second sensor 202 is 90 °, and if the first sensor 201 cannot sense the approach of a user and the second sensor 202 can sense the approach of the user, it is determined that the user is the first user, and the ignition function of the integrated cooker body 100 is turned off.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (13)

1. An integrated cooker control method is applied to an integrated cooker system and is characterized in that the integrated cooker system comprises an integrated cooker body and a human body induction assembly; the integrated cooker control method comprises the following steps:

acquiring a sensing signal measured by the human body sensing assembly;

and controlling the integrated cooker body to start a safety mode according to the sensing signal.

2. The integrated cooker control method of claim 1, wherein the controlling the integrated cooker body to activate the safety mode according to the sensing signal comprises:

judging whether the user is a first user or not according to the sensing signal;

and controlling the integrated cooker body to start a safety mode when the user is determined to be the first user.

3. The integrated cooker control method of claim 2, wherein the human body sensing assembly includes a first sensor; the integrated cooker system further comprises a shielding structure and a driving device for driving the shielding structure to move, wherein the shielding structure can be driven to a shielding position by the driving device so as to shield a lower area of a sensing area of the first sensor;

the step of judging whether the user is the first user according to the sensing signal comprises the following steps:

controlling the driving device to work so that the shielding structure moves to the shielding position;

and judging whether the user is the first user or not according to the sensing signal of the first sensor.

4. The integrated cooker control method of claim 3, wherein the human body sensing assembly further comprises a second sensor, a sensing area of which is located below a set height;

the step of determining whether the user is a first user according to the sensing signal of the first sensor comprises:

judging whether the user is a first user or not according to the sensing signal of the first sensor and the sensing signal of the second sensor;

determining that the user is a first user when the user is sensed by the second sensor and not sensed by the first sensor.

5. The integrated cooker control method of any one of claims 2 to 4, wherein the shielding structure is provided below the first inductor, and one end of the shielding structure is rotatably installed to the integrated cooker body, so that the other end of the shielding structure has an abdicating position rotated to be close to the integrated cooker body and the shielding position rotated to be far away from the integrated cooker body.

6. The control method of the integrated cooker according to claim 5, wherein the shielding position is provided in plurality in a rotational stroke of the shielding structure.

7. The integrated cooker control method of claim 5, wherein the integrated cooker system further comprises a smoke guide plate disposed to open and close the air inlet of the integrated cooker body, the smoke guide plate being disposed between the first inductor and the second inductor;

the smoke guide plate forms the shielding structure.

8. The integrated cooker control method of claim 2, wherein the human body induction assembly includes a first inductor and a second inductor, a sensing area of the first inductor is located above a set height, and a sensing area of the second inductor is located below the set height;

the step of judging whether the user is the first user according to the sensing signal comprises the following steps:

judging whether the user is a first user or not according to the sensing signal of the first sensor and the sensing signal of the second sensor;

determining that the user is a first user when the user is sensed by the second sensor and not sensed by the first sensor.

9. The integrated cooker control method of claim 1, wherein the integrated cooker system further comprises a gas passage to provide gas to the integrated cooker body;

the step of controlling the integrated cooker body to start a safety mode according to the sensing signal includes:

according to the sensing signal, controlling the ignition pulse of the integrated stove body to be closed and/or controlling the gas channel to be closed.

10. The integrated cooker control method of claim 1, wherein the integrated cooker system further comprises an alarm;

after the step of controlling the integrated cooker body to start a safety mode according to the sensing signal, further comprising:

and controlling the alarm to be started and sending an alarm signal.

11. The integrated cooker control method of claim 10, wherein after the step of controlling the alarm to be turned on and emitting an alarm signal, further comprising:

judging whether the user is a second user or not according to the sensing signal of the human body sensing assembly;

and controlling the alarm to be closed when the user is determined to be a second user.

12. An integrated cooker control system, comprising:

the system main body comprises an integrated cooker body and a human body induction assembly; and the number of the first and second groups,

a control device electrically connected to the integrated cooker body and the human body sensing assembly, the control device including a memory, a processor, and an integrated cooker control program stored on the memory and executable on the processor, the integrated cooker control program being configured to implement the steps of the integrated cooker control method according to any one of claims 1 to 11.

13. A storage medium, characterized in that the storage medium has stored thereon an integrated cooker control program, which when executed by a processor implements the steps of the integrated cooker control method according to any one of claims 1 to 11.

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