CN109945241B - Fire control method and device based on intelligent gas stove touch screen - Google Patents

Abstract

The invention discloses a fire control method and a fire control device based on a touch screen of an intelligent gas stove, wherein the method comprises the steps of determining a target fire gear which is used for controlling fire at present on the intelligent gas stove; determining a target inner ring fire parameter and a target outer ring fire parameter corresponding to the target fire gear, wherein the target inner ring fire parameter and the target outer ring fire parameter are independent; and controlling the inner ring fire of the intelligent gas stove according to the target inner ring fire parameter, and controlling the outer ring fire of the intelligent gas stove according to the target outer ring fire parameter. By implementing the method and the device, the inner ring firepower and the outer ring firepower of the intelligent gas stove can be independently controlled, and the firepower of the intelligent gas stove can be finely adjusted, so that the cooking efficiency and the cooking effect of food materials can be improved.

Description

Fire control method and device based on intelligent gas stove touch screen

Technical Field

The invention relates to the technical field of intelligent control, in particular to a firepower control method and a firepower control device based on an intelligent gas stove touch screen.

Background

With the development of science and technology, touch technology is developed more and more mature and applied to various industries. Touch-sensitive screen is based on the touch-control convenience, shows advantage directly perceived clear, also applies to intelligent kitchen electricity (intelligent kitchen electrical apparatus for short) trade slowly, for example: the intelligent gas stove is provided with the touch screen, so that the intelligent gas stove can be directly controlled and is convenient to clean quickly.

However, practice finds that the current intelligent gas stove has a place to be lifted, such as: when adjusting the firepower gear, adjust the outer ring fire of inevitable regulation when the inner ring fire, also can adjust the inner ring fire of inevitable regulation when adjusting the outer ring fire, the firepower of the inner ring of present intelligent gas-cooker and outer loop is adjusted and is unified the regulation promptly to lead to the meticulous regulation that can't realize the firepower, and then the culinary art effect of eating the material is influenced.

Disclosure of Invention

The technical problem to be solved by the embodiments of the present invention is to provide a method and a device for controlling firepower based on a touch screen of an intelligent gas stove, which can realize fine adjustment of firepower of the intelligent gas stove by independently controlling inner ring firepower and outer ring firepower of the intelligent gas stove, thereby facilitating improvement of cooking efficiency and cooking effect of food materials.

In order to solve the technical problem, a first aspect of the embodiment of the present invention discloses a fire control method based on a touch screen of an intelligent gas stove, and the method includes:

determining a target firepower gear currently used for controlling firepower on the intelligent gas stove;

determining a target inner ring fire parameter and a target outer ring fire parameter corresponding to the target fire gear, wherein the target inner ring fire parameter and the target outer ring fire parameter are independent;

and controlling the inner ring fire of the intelligent gas stove according to the target inner ring fire parameter, and controlling the outer ring fire of the intelligent gas stove according to the target outer ring fire parameter.

As an alternative implementation, in the first aspect of the embodiment of the present invention, before the determining the target inner-loop power parameter and the target outer-loop power parameter corresponding to the target power range, the method further includes:

grouping all fire gears of the intelligent gas stove according to a preset grouping rule to obtain three fire gear groups, wherein fire gears included in each fire gear group are not overlapped with each other;

determining inner ring fire parameters and outer ring fire parameters corresponding to different fire gears in each fire gear group;

wherein the determining of the target inner loop fire parameter and the target outer loop fire parameter corresponding to the target fire gear comprises:

determining a target fire gear group to which the target fire gear belongs from the three fire gear groups;

and determining a target inner ring fire parameter and a target outer ring fire parameter corresponding to the target fire gear according to the inner ring fire parameter and the outer ring fire parameter corresponding to different fire gears of the target fire gear group.

As an alternative implementation, in the first aspect of the embodiment of the present invention, the three fire shift groups include a first fire shift group, a second fire shift group, and a third fire shift group;

different fire gears in the first fire gear group correspond to different inner ring fire parameters, all fire gears in the first fire gear group correspond to the same outer ring fire parameters, different fire gears in the second fire gear group correspond to different inner ring fire parameters, the outer ring fire parameters corresponding to different fire gears in the second fire gear group are obtained through a first preset calculation formula, different fire gears in the third fire gear group correspond to the same inner ring fire parameters, and the outer ring fire parameters corresponding to different fire gears in the third fire gear group are obtained through a second preset calculation formula.

As an optional implementation manner, in the first aspect of the embodiment of the present invention, the inner-ring fire parameters corresponding to different fire gears in the second fire gear group correspond to the inner-ring fire parameters corresponding to the fire gears included in the first fire gear group according to a preset rule, one to one, and the inner-ring fire parameters corresponding to different fire gears in the third fire gear group are greater than or equal to the inner-ring fire parameters corresponding to the highest fire gear in the second fire gear group.

As an optional implementation manner, in the first aspect of the embodiment of the present invention, the first preset calculation formula is:

wherein the content of the first and second substances,

in the formula, M₁Outer loop fire parameters, I, corresponding to different fire gears in the second fire gear group₁A first preset current value, I, corresponding to the outer ring fire of the lowest fire gear included in the second fire gear group₂A second preset current value, K, corresponding to the outer ring fire of the highest fire gear included in the third fire gear group₁Is a preset parameter which is a positive integer, P₁Is a first fire gear difference value corresponding to the second fire gear group, the first fire gear difference value is an absolute value of a difference between a sequence number value corresponding to a highest fire gear in the second fire gear group and a sequence number value corresponding to a lowest fire gear in the second fire gear group, and P is₂A second fire gear difference value corresponding to the third fire gear group, wherein the second fire gear difference value is the third fire gearAbsolute value of difference between the serial number value corresponding to the highest fire power gear in the group and the serial number value corresponding to the lowest fire power gear in the third fire power gear group, Δ R₁A first preset thermal load value, Δ R, corresponding to the outer ring fire of every two adjacent fire gears in the second fire gear group₂A second preset thermal load value corresponding to the outer ring fire of every two adjacent fire gears in the third fire gear group;

the second preset calculation formula is as follows:

M₂＝M₁*K₂

in the formula, M₂An outer loop fire parameter, K, corresponding to different fire gears in the third fire gear group₂Is the ratio of the second preset thermal load value to the first preset thermal load value.

As an alternative implementation, in the first aspect of the embodiment of the present invention, after the controlling the inner-ring fire of the intelligent gas cooker according to the target inner-ring fire parameter and the controlling the outer-ring fire of the intelligent gas cooker according to the target outer-ring fire parameter, the method further includes:

inquiring a target inner ring fire current value corresponding to the inner ring fire and a target outer ring fire current value corresponding to the outer ring fire;

and determining a target thermal load value corresponding to the current thermal control of the intelligent gas stove based on the target inner ring thermal current value, the target outer ring thermal current value, the target inner ring thermal parameter and the target outer ring thermal parameter, and outputting the target thermal load value.

The second aspect of the embodiment of the invention discloses a firepower control device based on an intelligent gas stove touch screen, which comprises a first determination module and a control module, wherein:

the first determination module is used for determining a target firepower gear which is currently used for controlling firepower on the intelligent gas stove;

the first determining module is further configured to determine a target inner-loop fire parameter and a target outer-loop fire parameter corresponding to the target fire gear, where the target inner-loop fire parameter and the target outer-loop fire parameter are independent of each other;

the control module is used for controlling the inner ring fire of the intelligent gas stove according to the target inner ring fire parameter and controlling the outer ring fire of the intelligent gas stove according to the target outer ring fire parameter.

As an optional implementation manner, in a second aspect of the embodiment of the present invention, the apparatus further includes a grouping module and a second determining module, where:

the grouping module is used for grouping all the firepower gears of the intelligent gas stove according to a preset grouping rule before the first determining module determines a target inner ring firepower parameter and a target outer ring firepower parameter corresponding to the target firepower gear to obtain three firepower gear groups, wherein firepower gears included in each firepower gear group are not overlapped;

the second determining module is used for determining inner ring fire parameters and outer ring fire parameters corresponding to different fire gears in each fire gear group;

the mode for determining the target inner loop fire parameter and the target outer loop fire parameter corresponding to the target fire gear by the first determination module is specifically as follows:

determining a target fire gear group to which the target fire gear belongs from the three fire gear groups;

and determining a target inner ring fire parameter and a target outer ring fire parameter corresponding to the target fire gear according to the inner ring fire parameter and the outer ring fire parameter corresponding to different fire gears of the target fire gear group.

As an alternative implementation, in the second aspect of the embodiment of the present invention, the three fire shift groups include a first fire shift group, a second fire shift group, and a third fire shift group;

different fire gears in the first fire gear group correspond to different inner ring fire parameters, all fire gears in the first fire gear group correspond to the same outer ring fire parameters, different fire gears in the second fire gear group correspond to different inner ring fire parameters, the outer ring fire parameters corresponding to different fire gears in the second fire gear group are obtained through a first preset calculation formula, different fire gears in the third fire gear group correspond to the same inner ring fire parameters, and the outer ring fire parameters corresponding to different fire gears in the third fire gear group are obtained through a second preset calculation formula.

As an optional implementation manner, in the second aspect of the embodiment of the present invention, the inner-ring fire parameters corresponding to different fire gears in the second fire gear group are in one-to-one correspondence with the inner-ring fire parameters corresponding to fire gears included in the first fire gear group according to a preset rule, and the inner-ring fire parameters corresponding to different fire gears in the third fire gear group are greater than or equal to the inner-ring fire parameters corresponding to the highest fire gear in the second fire gear group.

As an optional implementation manner, in the second aspect of the embodiment of the present invention, the first preset calculation formula is:

wherein the content of the first and second substances,

in the formula, M₁Outer loop fire parameters, I, corresponding to different fire gears in the second fire gear group₁A first preset current value, I, corresponding to the outer ring fire of the lowest fire gear included in the second fire gear group₂A second preset current value, K, corresponding to the outer ring fire of the highest fire gear included in the third fire gear group₁Is a preset parameter which is a positive integer, P₁Is a first fire gear difference value corresponding to the second fire gear group, the first fire gear difference value is an absolute value of a difference between a sequence number value corresponding to a highest fire gear in the second fire gear group and a sequence number value corresponding to a lowest fire gear in the second fire gear group, and P is₂Is a second fire gear difference value corresponding to the third fire gear group, the second fire gear difference value is an absolute value of a difference between a sequence number value corresponding to a highest fire gear in the third fire gear group and a sequence number value corresponding to a lowest fire gear in the third fire gear group, and delta R is an absolute value of a difference between the sequence number values corresponding to the highest fire gear in the third fire gear group and the sequence number value corresponding to the lowest fire gear in the third fire gear group₁A first preset thermal load value, Δ R, corresponding to the outer ring fire of every two adjacent fire gears in the second fire gear group₂A second preset thermal load value corresponding to the outer ring fire of every two adjacent fire gears in the third fire gear group;

the second preset calculation formula is as follows:

M₂＝M₁*K₂

in the formula, M₂An outer loop fire parameter, K, corresponding to different fire gears in the third fire gear group₂Is the ratio of the second preset thermal load value to the first preset thermal load value.

As an optional implementation manner, in the second aspect of the embodiment of the present invention, the apparatus further includes a query module, where:

the query module is used for querying a target inner ring fire current value corresponding to the inner ring fire and a target outer ring fire current value corresponding to the outer ring fire after the control module controls the inner ring fire of the intelligent gas stove according to the target inner ring fire parameter and controls the outer ring fire of the intelligent gas stove according to the target outer ring fire parameter;

the first determining module is further configured to determine a target thermal load value corresponding to the current thermal control of the intelligent gas cooker based on the target inner ring thermal current value, the target outer ring thermal current value, the target inner ring thermal parameter and the target outer ring thermal parameter, and output the target thermal load value.

The third aspect of the embodiment of the invention discloses another fire control device based on a touch screen of an intelligent gas stove, which comprises:

a memory storing executable program code;

a processor coupled with the memory;

the processor calls the executable program code stored in the memory to execute the fire control method based on the intelligent gas stove touch screen disclosed by the first aspect of the embodiment of the invention.

The fourth aspect of the embodiments of the present invention discloses a computer storage medium, where the computer storage medium stores a computer instruction, and the computer instruction is used to execute the fire control method based on the touch screen of the intelligent gas stove disclosed in the first aspect of the embodiments of the present invention when being called.

The fifth aspect of the embodiment of the present invention discloses a computer program product, which, when running on a computer, causes the computer to execute the method for controlling fire based on the touch screen of the intelligent gas stove disclosed in the first aspect of the embodiment of the present invention.

Compared with the prior art, the invention has the following beneficial effects:

in the invention, a target firepower gear which is currently used for controlling firepower on the intelligent gas stove is determined; determining a target inner ring fire parameter and a target outer ring fire parameter corresponding to the target fire gear, wherein the target inner ring fire parameter and the target outer ring fire parameter are independent; and controlling the inner ring fire of the intelligent gas stove according to the target inner ring fire parameter, and controlling the outer ring fire of the intelligent gas stove according to the target outer ring fire parameter. Therefore, by independently controlling the inner ring firepower and the outer ring firepower of the intelligent gas stove, the invention can realize the fine adjustment of the firepower of the intelligent gas stove, and by outputting the heat load value corresponding to the firepower gear, a user can intuitively and clearly know the current firepower condition, thereby being beneficial to improving the cooking efficiency and the cooking effect of food materials.

Drawings

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

Fig. 1 is a schematic flow chart of a fire control method based on a touch screen of an intelligent gas stove, which is disclosed by the embodiment of the invention;

FIG. 2 is a schematic structural diagram of a fire control device based on a touch screen of an intelligent gas stove, which is disclosed by the embodiment of the invention;

fig. 3 is a schematic structural diagram of another fire control device based on a touch screen of an intelligent gas stove, which is disclosed by the embodiment of the invention;

fig. 4 is a schematic structural diagram of another fire control device based on a touch screen of an intelligent gas stove, which is disclosed by the embodiment of the invention.

Detailed Description

For better understanding and implementation, 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.

The terms "comprises," "comprising," and any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or modules is not necessarily limited to those steps or modules explicitly listed, but may include other steps or modules not expressly listed or inherent to such process, method, article, or apparatus. In addition, the terms "first", "second", and the like in the description and the claims of the present invention are only used for distinguishing different objects, and it is possible for a person having ordinary skill in the art to understand the specific meanings of the above terms in the present invention according to specific situations.

The embodiment of the invention discloses a fire control method and a fire control device based on an intelligent gas stove touch screen, which can realize fine adjustment of the fire of an intelligent gas stove by independently controlling the inner ring fire and the outer ring fire of the intelligent gas stove, can enable a user to intuitively and clearly know the current fire condition by outputting a thermal load value corresponding to a fire gear, and are beneficial to improving the cooking efficiency and the cooking effect of food materials. The following are detailed below.

Example one

Referring to fig. 1, fig. 1 is a schematic flow chart of a fire control method based on a touch screen of an intelligent gas stove according to an embodiment of the present invention. The method described in fig. 1 can be applied to a fire control terminal of an intelligent gas stove. As shown in fig. 1, the fire control method based on the touch screen of the intelligent gas stove may include the following steps:

101. and the fire control terminal determines a target fire gear which is currently used for controlling fire on the intelligent gas stove.

In the embodiment of the present invention, as an optional implementation manner, the determining, by the fire control terminal, a target fire gear currently used for controlling fire on the intelligent gas stove may include:

the fire control terminal detects touch operation triggered by a user aiming at a touch key on a touch screen of the intelligent gas stove;

and the fire control terminal determines a target entity key from the touched touch key according to the touch operation, and determines a fire gear corresponding to the target entity key as a target fire gear.

In the embodiment of the invention, the touch signal value of the target fire gear is greater than or equal to the preset response signal value corresponding to the target entity key.

In the embodiment of the invention, the intelligent gas stove can comprise a plurality of firepower gears, different firepower gears correspond to different firepower, and different firepower gears correspond to different touch keys. The touch keys may include physical keys and virtual keys, and the virtual keys are keys arranged in a preset area between at least one group of adjacent physical keys. Specifically, a virtual key may be disposed in an area between every two adjacent physical keys in all the physical keys, or a virtual key may be disposed in an area between some adjacent physical keys. Therefore, the virtual keys are arranged according to actual requirements, so that the requirements of various working functions of the intelligent gas stove (such as functions of locking, switching on and off fire, timing, adding and subtracting, displaying, buzzing and the like of the intelligent gas stove) can be met, subdivision of fire gears can be realized, namely subdivision of fire power is realized, the working efficiency of the intelligent gas stove is further improved, the cooking effect of food materials is improved, and the experience of a user is further improved.

Furthermore, the preset area may be an area that extends outward from a midpoint of a connection line between center points of areas where two adjacent physical keys are located but is different from the key areas of the two adjacent physical keys. Still further, the size of the preset area and the size of the key area of the physical key may be the same or different, and the specific requirements are determined according to actual situations, and all belong to the protection scope of the present invention. For example, the key areas of the 5 keys and the 6 keys of the physical keys are circular areas with the diameter of 2.0cm, a circular virtual key with the key area size of 2.0cm is arranged in a preset area between the 5 keys and the 6 keys of the physical keys, and the center distance between the areas where the 5 keys and the 6 keys of the physical keys are located is larger than 4.0 cm. Therefore, the response probability of the virtual keys can be improved by setting the key area of the virtual keys and the size of the key area of the entity keys; or the key area of the virtual key is set to be smaller than that of the entity key, so that the occupied space of the touch screen of the intelligent gas stove can be saved, and the production cost of the intelligent gas stove is reduced.

In the embodiment of the invention, each fire gear at least corresponds to one ring fire, namely each fire gear at least corresponds to an inner ring fire. Along with the increase of firepower gears, namely the increase of firepower corresponding to the firepower gears, the outer ring fire is increased on the basis of the inner ring fire. The inner ring fire is controlled by an inner ring proportional valve of the intelligent gas stove, the outer ring fire is controlled by an outer ring proportional valve of the intelligent gas stove, namely the inner ring fire and the outer ring fire of one firepower gear are respectively and independently controlled. Therefore, the fire power of the intelligent gas stove can be finely adjusted by independently controlling the inner ring fire and the outer ring fire of the intelligent gas stove.

As an optional embodiment, before triggering execution of step 101, the method for controlling fire based on the touch screen of the smart gas stove may further include the following steps:

the fire control terminal judges whether the touch screen of the intelligent gas stove is in an anti-misoperation touch mode or not;

when the judgment result is yes, the fire control terminal releases the anti-misoperation touch mode and triggers to execute the step 101;

when the result of the judgment is no, the fire control terminal directly triggers execution of step 101.

In this alternative embodiment, the anti-false touch mode may include at least one of an operation in which a plurality of touch keys are simultaneously touched (for example, the keys 5, 7 and 8 are simultaneously touched), an operation in which a touch time is longer than a preset time (for example, longer than 3s), and an operation in which an electric quantity value caused by a pressure induction generated by a touch operation is larger than a limit electric quantity value. The electric quantity value may include any one of a current value, a capacitance value, and a resistance value, and the embodiment of the present invention is not limited thereto.

In this optional embodiment, when the anti-misoperation touch mode is activated, the smart gas cooker touch screen is in a disabled state, that is, no matter any operation is generated on the smart gas cooker touch screen and/or a touch key of the smart gas cooker touch screen, the smart gas cooker touch screen does not respond, that is, the smart gas cooker touch screen temporarily loses a control function. After the anti-misoperation touch mode is turned off, namely the touch screen of the intelligent gas stove is in a reset (also called as an 'unlocked') state, subsequent operation can be carried out.

Therefore, in the optional embodiment, when the touch operation is judged to be the false touch operation prevention operation, the false touch operation prevention mode of the intelligent gas stove touch screen is started, so that the possibility that the intelligent gas stove is started to work due to the fact that the intelligent gas stove touch screen is touched by mistake can be reduced, the possibility of resource waste of natural gas, coal gas, electric energy and the like is reduced, and the use safety of the intelligent gas stove is improved.

As another alternative embodiment, before the fire control terminal triggers the execution of step 101, the fire control method based on the touch screen of the smart gas stove may further include the following steps:

the fire control terminal judges whether a target user triggering the touch operation is a user authorized to use the intelligent gas stove or not;

when the judgment result is yes, the fire control terminal triggers and executes the step 101;

and when the judgment result is negative, the firepower control terminal ends the process.

In this alternative embodiment, the background server of the intelligent gas stove stores authorized users who can use the intelligent gas stove. Further, the user input and/or the smart gas cooker touch screen automatically collects information according to the operation of the user on the touch screen when the user is authorized, and the embodiment of the invention is not limited.

Therefore, according to the optional embodiment, the subsequent operation is continuously executed only when the target user is judged to be the user authorized to use the intelligent gas, so that the use safety of the intelligent gas stove can be further improved.

102. The fire control terminal determines a target inner ring fire parameter and a target outer ring fire parameter corresponding to the target fire gear, the target inner ring fire parameter and the target outer ring fire parameter being independent of each other.

As another alternative embodiment, before triggering the execution of step 102, the method for controlling fire based on the touch screen of the smart gas cooker may further include the following steps:

the fire control terminal groups all fire gears of the intelligent gas stove according to a preset grouping rule to obtain three fire gear groups, wherein fire gears included in each fire gear group are not overlapped with each other;

and the fire control terminal determines an inner ring fire parameter and an outer ring fire parameter corresponding to different fire gears in each fire gear group.

In this alternative embodiment, the preset grouping rule may be a rule that the fire gears are grouped by sorting the fire gears from low to high according to their corresponding serial numbers (each fire gear is assigned with a corresponding serial number in advance, and the higher the fire gear is, the higher the serial number corresponding to the fire gear is). Further, the three fire gear groups may include a first fire gear group, a second fire gear group, and a third fire gear group. Wherein different fire gears in the first fire gear group correspond to different inner ring fire parameters, and all fire gears in the first fire gear group correspond to the same outer ring fire parameters; different firepower gears in the second firepower gear group correspond to different inner ring firepower parameters, and outer ring firepower parameters corresponding to different firepower gears in the second firepower gear group are obtained through a first preset calculation formula; different firepower gears in the third firepower gear group correspond to the same inner ring firepower parameters, and outer ring firepower parameters corresponding to different firepower gears in the third firepower gear group are obtained through a second preset calculation formula. Still further, the firepower gears in each firepower gear group are sequentially increased, namely the firepower corresponding to the firepower gears are sequentially increased, so that the firepower gears can be conveniently adjusted.

Specifically, all the fire gears in the first fire gear group may only correspond to the inner ring fire of the intelligent gas stove, that is, different fire gears in the first fire gear group may correspond to different inner ring fire parameters, and all the fire gears correspond to the same outer ring fire parameter being zero, at this time, only the inner ring fire proportional valve is opened, and the outer ring fire proportional valve is closed. Still further, the inner-loop fire parameter corresponding to each fire gear in the first fire gear group may be fixed or adjustable. Like this when needs small fire (be little firepower) culinary art, only open the inner ring proportional valve, can prolong the life of outer ring proportional valve, the life of intelligent gas-cooker promptly to for the user practices thrift the cost of purchasing intelligent gas-cooker, and then improve user's experience and feel.

Further, the inner-ring fire parameters corresponding to different fire gears in the second fire gear group are in one-to-one correspondence with the inner-ring fire parameters corresponding to the fire gears included in the first fire gear group according to a preset rule, and the inner-ring fire parameters corresponding to different fire gears in the third fire gear group are greater than or equal to the inner-ring fire parameters corresponding to the highest fire gear in the second fire gear group.

For example, the fire gears of the intelligent gas stove have 15 gears, the higher the number corresponding to the fire gear is, the higher the fire power of the fire gear is, and the inner ring fire parameters of the 15-gear fire gears are set to L1-L15 in sequence, and the outer ring fire parameters are set to H1-H15 in sequence, wherein 1-3 gears are classified into a first fire gear group, 4-6 gears are classified into a second fire gear group, and 7-15 gears are classified into a third fire gear group, then the inner ring fire parameters L4-L6 of 4-6 gears correspond to the inner ring fire parameters L1-L3 of 1-3 gears in sequence, and L7 ≧ L6 ═ L3 in sequence.

In this optional embodiment, the first preset calculation formula is as follows:

wherein the content of the first and second substances,

in the formula, M₁The outer loop fire parameters corresponding to different fire gears in the second fire gear group, I₁A first preset outer loop current value I corresponding to the outer loop firepower of the lowest firepower gear included in the second firepower gear group₂A second preset outer loop current value, K, corresponding to the outer loop fire of the highest fire gear included in the third fire gear group₁Is a predetermined parameter which is a positive integer, P₁Is the first fire gear difference value corresponding to the second fire gear group, the first fire gear difference value is the absolute value of the difference between the sequence number value corresponding to the highest fire gear in the second fire gear group and the sequence number value corresponding to the lowest fire gear in the second fire gear group, P₂A second firepower gear difference value corresponding to the third firepower gear group, wherein the second firepower gear difference value is a serial number value corresponding to the highest firepower gear in the third firepower gear group and the lowest firepower in the third firepower gear groupAbsolute value of difference between serial numbers corresponding to gears, Δ R₁A first preset outer ring thermal load value, Delta R, corresponding to the outer ring firepower of every two adjacent firepower gears in the second firepower gear group₂A second preset outer ring heat load value corresponding to the outer ring firepower of every two adjacent firepower gears in the third firepower gear group;

the second preset calculation formula is as follows:

M₂＝M₁*K₂

in the formula, M₂The outer loop fire parameters, K, corresponding to different fire gears in the third fire gear group₂Is the ratio of the second preset thermal load value to the first preset thermal load value.

Therefore, according to the optional embodiment, all the fire gears of the intelligent gas stove are grouped in advance, the determination efficiency of the target inner ring fire parameter and the target outer ring fire parameter of the target fire gear can be improved, and therefore the independent control efficiency of the inner ring fire and the outer ring fire of the intelligent gas stove is improved.

In an embodiment of the present invention, as an optional implementation manner, the determining, by the fire control terminal, a target inner-loop fire parameter and a target outer-loop fire parameter corresponding to the target fire gear may include:

the fire control terminal determines a target fire gear group to which the target fire gear belongs from three fire gear groups;

and the fire control terminal determines a target inner ring fire parameter and a target outer ring fire parameter corresponding to the target fire gear according to the inner ring fire parameter and the outer ring fire parameter corresponding to different fire gears of the target fire gear group.

103. And the fire control terminal controls the inner ring fire of the intelligent gas stove according to the target inner ring fire parameter and controls the outer ring fire of the intelligent gas stove according to the target outer ring fire parameter.

As another alternative embodiment, after the fire control terminal executes step 103, the fire control method based on the touch screen of the smart gas cooker may further include the following steps:

the fire control terminal inquires a target inner ring fire current value corresponding to the inner ring fire and a target outer ring fire current value corresponding to the outer ring fire;

and the fire control terminal determines a target thermal load value corresponding to the current fire control of the intelligent gas stove based on the target inner ring fire current value, the target outer ring fire current value, the target inner ring fire parameter and the target outer ring fire parameter, and outputs the target thermal load value.

In the optional embodiment, the target thermal load value can be output in a text and/or icon manner on a display screen of the touch screen of the intelligent gas stove, and the target thermal load value can also be output in a voice broadcast manner through a broadcaster on the touch screen of the intelligent gas stove or the broadcaster on the intelligent gas stove.

Therefore, the optional embodiment can enable the user to know the firepower of the current firepower gear of the intelligent gas stove more intuitively by outputting the thermal load value corresponding to the firepower gear, so that the user can adaptively adjust the firepower gear for controlling the intelligent gas stove according to the firepower, and the cooking efficiency of food materials is further improved.

As another alternative embodiment, after the fire control terminal performs step 103 or performs the above alternative embodiment, the fire control method based on the touch screen of the smart gas cooker may further include the following steps:

the fire control terminal determines whether a process of controlling the inner ring fire and the outer ring fire of the intelligent gas cooker based on the target inner ring fire parameter and the target outer ring fire parameter, respectively, needs to be within a preset time period, and the start time of the preset time period is the start time of controlling the inner ring fire and the outer ring fire of the intelligent gas cooker based on the target inner ring fire parameter and the target outer ring fire parameter, respectively.

When the judgment result is yes, the firepower control terminal monitors the real-time working condition of the intelligent gas stove and sends the real-time working condition to a user terminal bound with the intelligent gas stove;

and when the judgment result is negative, the firepower control terminal ends the process.

In this optional embodiment, the preset time period is a time period determined when a target fire gear is determined or when the inner ring fire and the outer ring fire of the intelligent gas cooker are respectively controlled according to the target inner ring fire parameter and the target outer ring fire parameter.

Therefore, when the process of respectively controlling the inner ring fire and the outer ring fire of the intelligent gas stove based on the target inner ring fire parameter and the target outer ring fire parameter is judged to be required to be within the preset time period, the optional embodiment monitors the real-time working condition of the intelligent gas stove and sends the real-time working condition to the user terminal bound with the intelligent gas stove, so that the user can know the real-time working condition of the intelligent gas stove, and the use safety of the intelligent gas stove can be improved.

Therefore, by implementing the fire control method based on the intelligent gas stove touch screen described in fig. 1, the inner ring fire and the outer ring fire of the intelligent gas stove can be independently controlled, the fine adjustment of the fire of the intelligent gas stove can be realized, and the user can intuitively and clearly know the current fire condition by outputting the thermal load value corresponding to the fire gear, so that the cooking efficiency and the cooking effect of food materials can be improved. In addition, the requirements of various working functions of the intelligent gas stove can be met; the response probability of the virtual keys can be improved; the occupied space of the touch screen of the intelligent gas stove can be saved, so that the production cost of the intelligent gas stove is reduced; the possibility that the intelligent gas stove is started due to the fact that the touch screen of the intelligent gas stove is touched by mistake can be reduced, and therefore the possibility of resource waste of natural gas, coal gas or electric energy and the like is reduced; and the user can know the real-time working condition of the intelligent gas stove and the use safety of the intelligent gas stove is further improved.

Example two

Referring to fig. 2, fig. 2 is a schematic structural diagram of a fire control device based on a touch screen of an intelligent gas stove according to an embodiment of the present invention. As shown in fig. 2, the fire control apparatus based on the touch screen of the smart gas cooker may include a first determination module 201 and a control module 202, wherein:

the first determining module 201 is configured to determine a target fire gear currently used for controlling fire on the intelligent gas stove.

The first determining module 201 is further configured to determine a target inner-loop fire parameter and a target outer-loop fire parameter corresponding to the target fire gear, where the target inner-loop fire parameter and the target outer-loop fire parameter are independent of each other.

And the control module 202 is used for controlling the inner ring fire of the intelligent gas stove according to the target inner ring fire parameter and controlling the outer ring fire of the intelligent gas stove according to the target outer ring fire parameter.

It can be seen that implementing the fire control device based on the touch screen of the intelligent gas stove described in fig. 2 can realize the fine adjustment of the fire of the intelligent gas stove by independently controlling the inner ring fire and the outer ring fire of the intelligent gas stove, and can enable a user to intuitively and clearly know the current fire condition by outputting the thermal load value corresponding to the fire gear, thereby being beneficial to improving the cooking efficiency and the cooking effect of food materials.

As an optional embodiment, the fire control apparatus based on the touch screen of the smart gas cooker may further include a grouping module 203 and a second determination module 204. At this time, the fire control device based on the touch screen of the intelligent gas stove can be as shown in fig. 3, and fig. 3 is a schematic structural diagram of another fire control device based on the touch screen of the intelligent gas stove disclosed by the embodiment of the invention, wherein:

a grouping module 203, configured to group all the fire gears of the intelligent gas stove according to a preset grouping rule before the first determining module 201 determines the target inner-ring fire parameter and the target outer-ring fire parameter corresponding to the target fire gear, so as to obtain three fire gear groups, where fire gears included in each fire gear group do not overlap with each other.

In this alternative embodiment, after the grouping module 203 finishes grouping all the fire gears of the intelligent gas stove according to the preset grouping rule to obtain three fire gear groups, the determining module 201 may be triggered to perform the above operation of determining the target inner-loop fire parameter and the target outer-loop fire parameter corresponding to the target fire gear.

The second determining module 204 is configured to determine an inner-loop fire parameter and an outer-loop fire parameter corresponding to different fire gears in each fire gear group.

The way for determining the target inner-loop fire parameter and the target outer-loop fire parameter corresponding to the target fire gear by the first determining module 201 is specifically as follows:

and determining a target fire gear group to which the target fire gear belongs from the three fire gear groups, and determining a target inner-loop fire parameter and a target outer-loop fire parameter corresponding to the target fire gear according to the inner-loop fire parameter and the outer-loop fire parameter corresponding to different fire gears of the target fire gear group.

In this alternative embodiment, the three fire shift groups may include a first fire shift group, a second fire shift group, and a third fire shift group, different fire shifts in the first fire shift group correspond to different inner-ring fire parameters, all fire shifts in the first fire shift group correspond to the same outer-ring fire parameter, different fire shifts in the second fire shift group correspond to different inner-ring fire parameters, outer-ring fire parameters corresponding to different fire shifts in the second fire shift group are obtained through a first preset calculation formula, different fire shifts in the third fire shift group correspond to the same inner-ring fire parameter, and outer-ring fire parameters corresponding to different fire shifts in the third fire shift group are obtained through a second preset calculation formula.

Further, the inner-ring fire parameters corresponding to different fire gears in the second fire gear group correspond to the inner-ring fire parameters corresponding to the fire gears included in the first fire gear group one by one according to a preset rule, and the inner-ring fire parameters corresponding to different fire gears in the third fire gear group are greater than or equal to the inner-ring fire parameters corresponding to the highest fire gear in the second fire gear group.

Still further, the first preset calculation formula is:

wherein the content of the first and second substances,

in the formula, M₁Outer loop fire parameters, I, corresponding to different fire gears in the second fire gear group₁A first preset current value, I, corresponding to the outer ring fire of the lowest fire gear included in the second fire gear group₂A second preset current value, K, corresponding to the outer ring fire of the highest fire gear included in the third fire gear group₁Is a preset parameter which is a positive integer, P₁Is a first fire gear difference value corresponding to the second fire gear group, the first fire gear difference value is an absolute value of a difference between a sequence number value corresponding to a highest fire gear in the second fire gear group and a sequence number value corresponding to a lowest fire gear in the second fire gear group, and P is₂Is a second fire gear difference value corresponding to the third fire gear group, the second fire gear difference value is an absolute value of a difference between a sequence number value corresponding to a highest fire gear in the third fire gear group and a sequence number value corresponding to a lowest fire gear in the third fire gear group, and delta R is an absolute value of a difference between the sequence number values corresponding to the highest fire gear in the third fire gear group and the sequence number value corresponding to the lowest fire gear in the third fire gear group₁A first preset thermal load value, Δ R, corresponding to the outer ring fire of every two adjacent fire gears in the second fire gear group₂A second preset thermal load value corresponding to the outer ring fire of every two adjacent fire gears in the third fire gear group;

the second preset calculation formula is as follows:

M₂＝M₁*K₂

in the formula, M₂An outer loop fire parameter, K, corresponding to different fire gears in the third fire gear group₂Is the ratio of the second preset thermal load value to the first preset thermal load value.

Therefore, the implementation of the fire control device based on the touch screen of the intelligent gas stove shown in fig. 3 can improve the determination efficiency of the target inner ring fire parameter and the target outer ring fire parameter of the target fire gear by grouping all the fire gears of the intelligent gas stove in advance, so that the independent control efficiency of the inner ring fire and the outer ring fire of the intelligent gas stove is improved.

As another alternative embodiment, as shown in fig. 3, the fire control apparatus based on a touch screen of a smart gas cooker may further include an inquiry module 205, wherein:

an inquiring module 205, configured to inquire a target inner ring fire current value corresponding to the inner ring fire and a target outer ring fire current value corresponding to the outer ring fire after the control module 202 controls the inner ring fire of the intelligent gas cooker according to the target inner ring fire parameter and controls the outer ring fire of the intelligent gas cooker according to the target outer ring fire parameter.

In this alternative embodiment, after the control module 202 completes the operations of controlling the inner ring fire of the intelligent gas cooker according to the target inner ring fire parameter and controlling the outer ring fire of the intelligent gas cooker according to the target outer ring fire parameter, the query module 205 may be triggered to perform the operations of querying the target inner ring fire current value corresponding to the inner ring fire and the target outer ring fire current value corresponding to the outer ring fire.

The first determining module 201 is further configured to determine a target thermal load value corresponding to the current thermal control of the intelligent gas cooker based on the target inner-ring thermal current value, the target outer-ring thermal current value, the target inner-ring thermal parameter, and the target outer-ring thermal parameter, and output the target thermal load value.

It can be seen that, the implementation of the fire control device based on the touch screen of the intelligent gas stove shown in fig. 3 can also enable a user to know the fire size of the current fire gear of the intelligent gas stove more intuitively by outputting the thermal load value corresponding to the fire gear, so that the user can adaptively adjust the fire gear for controlling the intelligent gas stove according to the fire size, and further improve the cooking efficiency of food materials.

As still another alternative embodiment, as shown in fig. 3, the fire control apparatus based on the touch screen of the smart gas cooker may further include a determination module 206, wherein:

the judging module 206 is configured to judge whether the touch screen of the intelligent gas stove is in the anti-misoperation touch mode before the first determining module 201 determines the target fire gear currently used for controlling fire on the intelligent gas stove. When the judgment result is yes, the fire control terminal releases the anti-misoperation touch mode and triggers the first determining module 201 to execute the operation of determining the current target fire gear for controlling fire on the intelligent gas stove; when the judgment result is negative, the fire control terminal directly triggers the first determination module 201 to execute the above-mentioned operation of determining the target fire gear currently used for controlling fire on the intelligent gas stove.

Therefore, the fire control device based on the intelligent gas stove touch screen shown in fig. 3 can start the anti-misoperation touch mode of the intelligent gas stove touch screen when the touch operation is judged to be the anti-misoperation touch operation, so that the possibility of starting the intelligent gas stove to work due to the fact that the intelligent gas stove touch screen is touched by mistake can be reduced, the possibility of resource waste of natural gas, coal gas, electric energy and the like is reduced, and the use safety of the intelligent gas stove is improved.

As still another alternative, the determining module 206 is further configured to determine whether the target user triggering the touch operation is a user authorized to use the smart gas stove before the first determining module 201 determines the target fire gear currently used for controlling fire on the smart gas stove. When the judgment result is yes, triggering the first determining module 201 to execute the operation of determining the target fire gear on the intelligent gas stove currently used for controlling fire; and when the judgment result is negative, ending the process.

Therefore, the implementation of the fire control device based on the touch screen of the intelligent gas stove shown in fig. 3 can further improve the use safety of the intelligent gas stove by continuing to execute subsequent operations only when the target user is judged to be the user authorized to use the intelligent gas.

As still another alternative embodiment, as shown in fig. 3, the fire control apparatus based on the touch screen of the smart gas cooker may further include a monitoring module 207, wherein:

the determining module 206 is further configured to determine whether a process of controlling the inner ring fire and the outer ring fire of the intelligent gas cooker respectively based on the target inner ring fire parameter and the target outer ring fire parameter needs to be within a preset time period after the control module 202 controls the inner ring fire of the intelligent gas cooker according to the target inner ring fire parameter and controls the outer ring fire of the intelligent gas cooker according to the target outer ring fire parameter.

And the monitoring module 207 is configured to monitor the real-time working condition of the intelligent gas stove and send the real-time working condition to the user terminal bound to the intelligent gas stove when the determination result of the determining module 206 is yes.

It can be seen that, when the implementation of the fire control device based on the touch screen of the intelligent gas stove shown in fig. 3 determines that the process of respectively controlling the inner ring fire and the outer ring fire of the intelligent gas stove based on the target inner ring fire parameter and the target outer ring fire parameter needs to be within a preset time period, the real-time working condition of the intelligent gas stove is monitored and sent to the user terminal bound with the intelligent gas stove, so that the user can know the real-time working condition of the intelligent gas stove, and the use safety of the intelligent gas stove can be improved.

EXAMPLE III

Referring to fig. 4, fig. 4 is a schematic structural diagram of another fire control device based on a touch screen of an intelligent gas stove according to an embodiment of the present invention. As shown in fig. 4, the fire control device based on the touch screen of the smart gas cooker may include:

a memory 401 storing executable program code;

a processor 402 coupled with the memory 401;

the processor 402 calls the executable program code stored in the memory 401 to execute the steps of the fire control method based on the touch screen of the intelligent gas stove described in the first embodiment.

Example four

The embodiment of the invention discloses a computer-readable storage medium which stores a computer program for electronic data exchange, wherein the computer program enables a computer to execute the steps of the fire control method based on the touch screen of the intelligent gas stove described in the first embodiment.

EXAMPLE five

The embodiment of the invention discloses a computer program product, which comprises a non-transitory computer readable storage medium storing a computer program, wherein the computer program is operable to make a computer execute the steps of the fire control method based on the touch screen of the intelligent gas stove described in the first embodiment.

The above-described embodiments of the apparatus are merely illustrative, and the modules described as separate components may or may not be physically separate, and the components shown as modules may or may not be physical modules, may be located in one place, or may be distributed on a plurality of network modules. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment. One of ordinary skill in the art can understand and implement it without inventive effort.

Through the above detailed description of the embodiments, those skilled in the art will clearly understand that the embodiments may be implemented by software plus a necessary general hardware platform, and may also be implemented by hardware. Based on such understanding, the above technical solutions may be embodied in the form of a software product, which may be stored in a computer-readable storage medium, wherein the storage medium includes a Read-Only Memory (ROM), a Random Access Memory (RAM), a Programmable Read-Only Memory (PROM), an Erasable Programmable Read-Only Memory (EPROM), a One-time Programmable Read-Only Memory (OTPROM), an Electrically Erasable rewritable Read-Only Memory (EEPROM), a compact disc-Read-Only Memory (CD-ROM) or other magnetic disk memories, a magnetic tape Memory, a magnetic disk, a magnetic tape Memory, a magnetic tape, and a magnetic tape, Or any other medium which can be used to carry or store data and which can be read by a computer.

Finally, it should be noted that: the method and the device for controlling the fire power based on the touch screen of the intelligent gas stove disclosed by the embodiment of the invention are only the preferred embodiment of the invention, and are only used for explaining the technical scheme of the invention, but not limiting the technical scheme; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art; the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (14)

1. The fire control method based on the intelligent gas stove touch screen is characterized in that the intelligent gas stove comprises a plurality of fire gears, different fire gears correspond to different touch keys, the touch keys comprise entity keys and virtual keys, the virtual keys are keys arranged in a preset area between at least one group of adjacent entity keys, and the method comprises the following steps:

determining a target firepower gear currently used for controlling firepower on the intelligent gas stove;

determining a target inner ring fire parameter and a target outer ring fire parameter corresponding to the target fire gear, wherein the target inner ring fire parameter and the target outer ring fire parameter are independent;

and controlling the inner ring fire of the intelligent gas stove according to the target inner ring fire parameter, and controlling the outer ring fire of the intelligent gas stove according to the target outer ring fire parameter.

2. The fire control method based on the touch screen of the smart gas cooker as claimed in claim 1, wherein before determining the target inner loop fire parameter and the target outer loop fire parameter corresponding to the target fire gear, the method further comprises:

grouping all fire gears of the intelligent gas stove according to a preset grouping rule to obtain three fire gear groups, wherein fire gears included in each fire gear group are not overlapped with each other;

determining inner ring fire parameters and outer ring fire parameters corresponding to different fire gears in each fire gear group;

wherein the determining of the target inner loop fire parameter and the target outer loop fire parameter corresponding to the target fire gear comprises:

determining a target fire gear group to which the target fire gear belongs from the three fire gear groups;

and determining a target inner ring fire parameter and a target outer ring fire parameter corresponding to the target fire gear according to the inner ring fire parameter and the outer ring fire parameter corresponding to different fire gears of the target fire gear group.

3. The fire control method based on the touch screen of the intelligent gas stove as claimed in claim 2, wherein the three fire shift groups comprise a first fire shift group, a second fire shift group and a third fire shift group;

different fire gears in the first fire gear group correspond to different inner ring fire parameters, all fire gears in the first fire gear group correspond to the same outer ring fire parameters, different fire gears in the second fire gear group correspond to different inner ring fire parameters, the outer ring fire parameters corresponding to different fire gears in the second fire gear group are obtained through a first preset calculation formula, different fire gears in the third fire gear group correspond to the same inner ring fire parameters, and the outer ring fire parameters corresponding to different fire gears in the third fire gear group are obtained through a second preset calculation formula.

4. The fire control method based on the touch screen of the intelligent gas stove as claimed in claim 3, wherein the inner ring fire parameters corresponding to different fire gears in the second fire gear group are in one-to-one correspondence with the inner ring fire parameters corresponding to the fire gears included in the first fire gear group according to a preset rule, and the inner ring fire parameters corresponding to different fire gears in the third fire gear group are greater than or equal to the inner ring fire parameters corresponding to the highest fire gear in the second fire gear group.

5. The fire control method based on the touch screen of the intelligent gas stove as claimed in claim 3 or 4, wherein the first preset calculation formula is as follows:

wherein the content of the first and second substances,

in the formula, M₁Outer loop fire parameters, I, corresponding to different fire gears in the second fire gear group₁A first preset current value, I, corresponding to the outer ring fire of the lowest fire gear included in the second fire gear group₂A second preset current value, K, corresponding to the outer ring fire of the highest fire gear included in the third fire gear group₁Is a preset parameter which is a positive integer, P₁Is a first fire gear difference value corresponding to the second fire gear group, the first fire gear difference value is an absolute value of a difference between a sequence number value corresponding to a highest fire gear in the second fire gear group and a sequence number value corresponding to a lowest fire gear in the second fire gear group, and P is₂A second fire gear difference value corresponding to the third fire gear group, wherein the second fire gear difference value is that a sequence number value corresponding to a highest fire gear in the third fire gear group corresponds to a lowest fire gear in the third fire gear groupThe absolute value of the difference between the ordinal numbers of (1), Δ R₁A first preset thermal load value, Δ R, corresponding to the outer ring fire of every two adjacent fire gears in the second fire gear group₂A second preset thermal load value corresponding to the outer ring fire of every two adjacent fire gears in the third fire gear group;

the second preset calculation formula is as follows:

M₂＝M₁*K₂

in the formula, M₂An outer loop fire parameter, K, corresponding to different fire gears in the third fire gear group₂Is the ratio of the second preset thermal load value to the first preset thermal load value.

6. The method for controlling fire based on the touch screen of the intelligent gas cooker as claimed in any one of claims 1 to 4, wherein after the inner ring fire of the intelligent gas cooker is controlled according to the target inner ring fire parameter and the outer ring fire of the intelligent gas cooker is controlled according to the target outer ring fire parameter, the method further comprises:

inquiring a target inner ring fire current value corresponding to the inner ring fire and a target outer ring fire current value corresponding to the outer ring fire;

and determining a target thermal load value corresponding to the current thermal control of the intelligent gas stove based on the target inner ring thermal current value, the target outer ring thermal current value, the target inner ring thermal parameter and the target outer ring thermal parameter, and outputting the target thermal load value.

7. The utility model provides a firepower controlling means based on intelligent gas-cooker touch-sensitive screen, its characterized in that, intelligent gas-cooker includes a plurality of firepower gears, and is different the firepower gear corresponds different touch button, touch button includes entity button and virtual button, virtual button is at least a set of adjacent the button that the district set up is predetermine between the entity button, the device includes first definite module and control module, wherein:

the first determination module is used for determining a target firepower gear which is currently used for controlling firepower on the intelligent gas stove;

the first determining module is further configured to determine a target inner-loop fire parameter and a target outer-loop fire parameter corresponding to the target fire gear, where the target inner-loop fire parameter and the target outer-loop fire parameter are independent of each other;

the control module is used for controlling the inner ring fire of the intelligent gas stove according to the target inner ring fire parameter and controlling the outer ring fire of the intelligent gas stove according to the target outer ring fire parameter.

8. The intelligent gas cooker touch screen based fire control device as claimed in claim 7, further comprising a grouping module and a second determination module, wherein:

the grouping module is used for grouping all the firepower gears of the intelligent gas stove according to a preset grouping rule before the first determining module determines a target inner ring firepower parameter and a target outer ring firepower parameter corresponding to the target firepower gear to obtain three firepower gear groups, wherein firepower gears included in each firepower gear group are not overlapped;

the second determining module is used for determining inner ring fire parameters and outer ring fire parameters corresponding to different fire gears in each fire gear group;

the mode for determining the target inner loop fire parameter and the target outer loop fire parameter corresponding to the target fire gear by the first determination module is specifically as follows:

determining a target fire gear group to which the target fire gear belongs from the three fire gear groups;

and determining a target inner ring fire parameter and a target outer ring fire parameter corresponding to the target fire gear according to the inner ring fire parameter and the outer ring fire parameter corresponding to different fire gears of the target fire gear group.

9. The fire control device based on the touch screen of the intelligent gas stove as claimed in claim 8, wherein the three fire shift groups comprise a first fire shift group, a second fire shift group and a third fire shift group;

different fire gears in the first fire gear group correspond to different inner ring fire parameters, all fire gears in the first fire gear group correspond to the same outer ring fire parameters, different fire gears in the second fire gear group correspond to different inner ring fire parameters, the outer ring fire parameters corresponding to different fire gears in the second fire gear group are obtained through a first preset calculation formula, different fire gears in the third fire gear group correspond to the same inner ring fire parameters, and the outer ring fire parameters corresponding to different fire gears in the third fire gear group are obtained through a second preset calculation formula.

10. The fire control device based on the touch screen of the intelligent gas stove as recited in claim 9, wherein inner ring fire parameters corresponding to different fire gears in the second fire gear group are in one-to-one correspondence with inner ring fire parameters corresponding to fire gears included in the first fire gear group according to a preset rule, and inner ring fire parameters corresponding to different fire gears in the third fire gear group are greater than or equal to inner ring fire parameters corresponding to a highest fire gear in the second fire gear group.

11. The fire control device based on the touch screen of the intelligent gas stove as claimed in claim 9 or 10, wherein the first preset calculation formula is as follows:

wherein the content of the first and second substances,

in the formula, M₁Outer loop firepower corresponding to different firepower gears in the second firepower gear groupParameter, I₁A first preset current value, I, corresponding to the outer ring fire of the lowest fire gear included in the second fire gear group₂A second preset current value, K, corresponding to the outer ring fire of the highest fire gear included in the third fire gear group₁Is a preset parameter which is a positive integer, P₁Is a first fire gear difference value corresponding to the second fire gear group, the first fire gear difference value is an absolute value of a difference between a sequence number value corresponding to a highest fire gear in the second fire gear group and a sequence number value corresponding to a lowest fire gear in the second fire gear group, and P is₂Is a second fire gear difference value corresponding to the third fire gear group, the second fire gear difference value is an absolute value of a difference between a sequence number value corresponding to a highest fire gear in the third fire gear group and a sequence number value corresponding to a lowest fire gear in the third fire gear group, and delta R is an absolute value of a difference between the sequence number values corresponding to the highest fire gear in the third fire gear group and the sequence number value corresponding to the lowest fire gear in the third fire gear group₁A first preset thermal load value, Δ R, corresponding to the outer ring fire of every two adjacent fire gears in the second fire gear group₂A second preset thermal load value corresponding to the outer ring fire of every two adjacent fire gears in the third fire gear group;

the second preset calculation formula is as follows:

M₂＝M₁*K₂

in the formula, M₂An outer loop fire parameter, K, corresponding to different fire gears in the third fire gear group₂Is the ratio of the second preset thermal load value to the first preset thermal load value.

12. The intelligent gas stove touch screen-based fire control device according to any one of claims 7-10, further comprising an inquiry module, wherein:

the query module is used for querying a target inner ring fire current value corresponding to the inner ring fire and a target outer ring fire current value corresponding to the outer ring fire after the control module controls the inner ring fire of the intelligent gas stove according to the target inner ring fire parameter and controls the outer ring fire of the intelligent gas stove according to the target outer ring fire parameter;

the first determining module is further configured to determine a target thermal load value corresponding to the current thermal control of the intelligent gas cooker based on the target inner ring thermal current value, the target outer ring thermal current value, the target inner ring thermal parameter and the target outer ring thermal parameter, and output the target thermal load value.

13. The utility model provides a firepower controlling means based on intelligent gas-cooker touch-sensitive screen which characterized in that, the device includes:

a memory storing executable program code;

a processor coupled with the memory;

the processor calls the executable program code stored in the memory to execute the fire control method based on the touch screen of the intelligent gas cooker according to any one of claims 1 to 6.

14. A computer storage medium, characterized in that the computer storage medium stores computer instructions, which when called, are used for executing the fire control method based on the touch screen of the smart gas cooker according to any one of claims 1-6.

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