CN112386134A - Stirrer and touch display screen control method - Google Patents

Abstract

The invention discloses a stirrer and a touch display screen control method, which comprise a cup body, a base, a stirring cutter set and a locking piece, wherein the cup body is arranged on the base, the cup body is connected with the stirring cutter set through the locking piece, the base comprises a controller, a heating part, a touch display screen, an adjusting knob, a voice part and a data communication interface, the touch display screen displays a human-computer interaction interface after being electrified, the human-computer interaction interface is provided with a plurality of different display areas for displaying processing parameters, functional processing parameters of the stirrer and the touch display screen control method are set in the display areas, and the heating part of the base of the stirrer and the touch display screen control method is started to heat the cup body and control the stirring cutter set to rotate with fixed functional parameters. The man-machine interaction interface applied by the stirrer controls the application parameters of the equipment, the functional parameters are changed through the control interface of the man-machine interaction interface, and the display screen displays the application condition, so that the stirrer has more flexible operation and better meets the application requirements of a kitchen.

Description

Stirrer and touch display screen control method

Technical Field

The invention relates to the technical field of kitchen appliance application control, in particular to a stirrer and a touch display screen control method.

Background

In the prior art, the kitchen blender is generally applied to processing operations for smashing and heating food in the field of household appliances, and in the application of the kitchen blender, the food processing operation is carried out through set fixed processing parameters, and especially the application based on the adjusting parameters can not realize the information display of the display.

The above is only for the purpose of assisting understanding of the technical aspects of the present invention, and does not represent an admission that the above is prior art.

Disclosure of Invention

The invention mainly aims to provide a stirrer and a touch display screen control method, and aims to solve the problem that display parameters of the existing stirrer cannot display technical content of related processing parameter information on a display screen.

In order to achieve the above object, the present invention provides a stirrer and a touch display screen control method, including the following steps:

the stirrer and touch display screen control method comprises a cup body, a base, a stirring knife set and a locking piece, wherein the cup body is arranged on the base, the cup body is connected with the stirring knife set through the locking piece, the base comprises a controller, a heating part, a touch display screen, an adjusting knob, a voice part and a data communication interface, the touch display screen displays a human-computer interaction interface after the stirrer is electrified, the touch display screen control method is executed based on the human-computer interaction interface, the human-computer interaction interface is provided with a plurality of different display areas for displaying processing parameters, functional processing parameters of the stirrer are set in the display areas, and the heating part of the stirrer base is started to heat the cup body and control the stirring knife set to rotate with fixed functional parameters;

the human-computer interaction interface is also used for regulating/finishing the program operation of the stirrer, and the functional parameters for regulating the stirrer comprise heating parameters, the rotating speed of the stirring knife set, heating duration, rotating duration and heating rotating period;

the stirrer is provided with a heating function for independently controlling a heating part and an accelerating function for controlling the rotation of the stirring cutter set, and the heating function and the accelerating function can activate the rotation of the stirring cutter set through the touch screen function of a human-computer interaction interface and the mechanical selection rotating speed of a base adjusting knob; and the heating function and the accelerating function can also control and activate the stirring cutter set to rotate through the combination of the touch screen function and the mechanical selection rotating speed of the base adjusting knob.

Optionally, when the stirrer executes heating and rotating operations according to the functional parameters, displaying the operation progress of the current operation task on a human-computer interaction interface of the touch display screen.

Optionally, the operation progress comprises a total operation progress, a heating progress and a rotation progress;

and the operation progress of the total operation progress, the heating progress and the rotation progress is displayed independently.

Optionally, the blender further comprises a weighing component, the weighing component being activatable by a human machine interface.

Optionally, the mixer is provided with a plurality of fixed processing functions, and the fixed processing functions are all activated by an application through a control interface of the human-computer interaction interface.

Optionally, the fixed processing function may edit the corresponding function parameter through a corresponding function parameter control interface of the human-computer interaction interface.

Optionally, the fixed processing function is activated by clicking the position of the touch display screen in the control area where the human-computer interaction interface is located, or rotating the adjusting knob.

Optionally, the data communication interface may be connected to an external electronic device, and the external electronic device controls an application function of the stirrer.

Optionally, the voice component outputs voice reminding information according to the function operation of the current human-computer interaction interface.

Optionally, the stirrer further comprises a fault detection mechanism, the fault detection mechanism comprises a sensor and a knob lamp, the knob lamp is electrically connected with the adjusting knob, the sensor is in communication connection with the controller, and the controller controls the knob lamp to be turned on;

and the controller controls the human-computer display interface to display fault reminding according to the information detected by the sensor.

The invention provides a stirrer and a touch display screen control method, wherein the stirrer comprises a cup body, a base, a stirring cutter set and a locking piece, the cup body is arranged on the base and is connected with the stirring cutter set through the locking piece, the base comprises a controller, a heating part, a touch display screen, an adjusting knob, a voice part and a data communication interface, the touch display screen displays a human-computer interaction interface after the stirrer is electrified, the touch display screen control method is executed based on the human-computer interaction interface, the human-computer interaction interface is provided with a plurality of different display areas for displaying processing parameters, functional processing parameters of the stirrer are set in the display areas, and the heating part of the stirrer base is started to heat the cup body and control the stirring cutter set to rotate with fixed functional parameters; the human-computer interaction interface is also used for regulating/finishing the program operation of the stirrer, and the functional parameters for regulating the stirrer comprise heating parameters, the rotating speed of the stirring knife set, heating duration, rotating duration and heating rotating period; the stirrer is provided with a heating function for independently controlling the heating component and an accelerating function for controlling the stirring cutter set to rotate, and the heating function and the accelerating function can activate the stirring cutter set to rotate through the touch screen function of a human-computer interaction interface and the mechanical selection rotating speed of the base adjusting knob. The man-machine interaction interface applied to the stirrer can control the equipment application parameters through the man-machine interaction interface, can also directly change the content of the functional parameters through the corresponding control interface of the man-machine interaction interface, can display the current application condition on the display screen based on the current functional parameters, can be controlled through the man-machine interaction interface when changing the functional parameters such as the rotating speed of the stirring cutter set, can also be controlled through the rotation of the adjusting knob, has more flexible operation in application, and can better meet the kitchen application requirements of users.

Drawings

FIG. 1 is a schematic structural diagram of a first embodiment of a stirrer and a touch display screen control method according to the present invention;

FIG. 2 is a schematic diagram of a logo image of a human-computer interaction interface when a stirrer is started;

FIG. 3 is a main interface of a human-computer interaction interface of the stirrer and the touch display screen control method of the invention;

FIG. 3-1 is a schematic diagram of an application of a function key;

FIG. 4 is a control interface of the human machine interface based on a fixed processing module;

FIG. 4-1 is an auto-purge fixed mode control page;

FIG. 4-2 is a function reminder page for an auto-purge mode;

fig. 4-3 are boiling mode control pages;

4-4 are function reminder pages for a water boiling function mode;

FIGS. 4-5 are dough function mode control pages;

FIGS. 4-6 are functional alert pages of the dough kneading functional mode;

FIGS. 4-7 are slow stewing function mode control pages;

FIGS. 4-8 are function reminder pages for the slow stewing mode of function;

FIGS. 4-9 are fertilizer release function mode control pages;

FIGS. 4-10 are functional reminder pages for a weight loss function mode;

FIGS. 4-11 are fry function mode control pages;

FIGS. 4-12 are function reminder pages for the fry function mode;

FIGS. 4-13 are cooking function mode control pages;

FIGS. 4-14 are function reminder pages for the cooking function;

FIGS. 4-15 are fermentation function mode control pages;

FIGS. 4-16 are function reminder pages for the fermentation function;

FIGS. 4-17 are diagrams of a function mode control page for densification;

FIGS. 4-18 are function reminder pages for a thickening function;

FIGS. 4-19 are thermal functional mode control pages;

FIGS. 4-20 are functional reminder pages for a heat preservation function;

FIGS. 4-21 are views of a rice function mode control page;

FIGS. 4-22 are functional reminder pages for the function of braising rice;

FIGS. 4-23 are Top Speed mode control pages;

FIGS. 4-24 are toprequested mode reminder pages;

FIGS. 4-25 are weighing function control pages;

FIG. 5 is a main menu control interface of the human-computer interaction interface;

FIG. 5-1 is a control page based on my recipe submenu;

FIG. 5-2 is a control page based on a personality album;

FIG. 5-3 are recipe selection control pages;

fig. 5-4 are recipe operation parameter control pages;

FIGS. 5-5 are schematic views of a recipe-based operation step page;

FIGS. 5-6 are schematic diagrams of the operation of exiting the current recipe function;

FIGS. 5-7 are application function setup pages for the blender and touch screen display control method;

FIGS. 5-8 are functional help pages for the blender and touch screen control method application;

FIG. 6 is a schematic view of a dry-fire reminder page with dry-fire prevention function;

FIG. 7 is a system version update based on a human-computer interaction interface.

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

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

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or system that comprises the element.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a first embodiment of a stirrer and a touch display screen control method of the invention, in this embodiment, the stirrer includes a cup body 10, a base 20, a stirring blade assembly 30, and a locking member 40, the cup body 10 is disposed on the base 20, the cup body 10 is connected to the stirring blade assembly 30 through the locking member 40, the base 20 includes a controller, a heating member, a touch display screen, an adjusting knob, a voice member, and a data communication interface, the touch display screen displays a human-computer interaction interface after the stirrer is powered on, the touch display screen executes the touch display screen control method based on the human-computer interaction interface, the human-computer interaction interface includes a plurality of different display areas displaying processing parameters, the functional processing parameters of the stirrer are set in the display areas, the heating member of the stirrer base 20 is started to heat the cup body 10 and control the stirring blade assembly 30 to rotate with fixed functional parameters (ii) a The human-computer interaction interface is also used for regulating/finishing the program operation of the stirrer, and the functional parameters for regulating the stirrer comprise heating parameters, the rotating speed of the stirring knife set 30, heating duration, rotating duration and heating rotating period; and the voice component outputs voice reminding information according to the function operation of the current human-computer interaction interface.

The stirrer is provided with a heating function for independently controlling a heating part and an accelerating function for controlling the rotation of the stirring cutter set 30, the heating function and the accelerating function can activate the stirring cutter set 30 to rotate through the touch screen function of a man-machine interaction interface and the mechanical selection rotating speed of the adjusting knob of the base 20, and in addition, according to the specific parameter setting content of the heating function and the accelerating function, the heating function and the accelerating function can also control the activation of the stirring cutter set 30 to rotate through the combination of the touch screen function and the mechanical selection rotating speed of the adjusting knob of the base 20.

When the stirrer is started to realize current food processing, the stirrer is started, namely, after the stirrer is powered on, a human-computer interaction interface is displayed in a touch display screen of the base 20, the human-computer interaction interface has a human-computer interaction function, and a terminal system function needs to be started, a LOGO picture set by a current stirrer terminal system is firstly displayed before the human-computer interaction interface is displayed, the LOGO picture can be correspondingly set based on a manufacturer or a customer which produces the current stirrer, the display condition of the LOGO picture can be seen in fig. 2, and fig. 2 is a schematic view of the LOGO picture of the human-computer interaction interface when the stirrer is started. The logo picture is mainly used for avoiding blank display of a display screen or serving as an official propaganda channel of a manufacturer of the current terminal equipment when a terminal system of the stirrer is started. In this embodiment, after the blender is started, the touch display screen displays a human-computer interaction interface, a main interface of the human-computer interaction interface includes basic function setting contents, as shown in fig. 3, fig. 3 is a human-computer interaction interface main interface of the blender of the present invention, the human-home interaction interface main interface includes three function keys and control keys, both of the function keys and the control keys can be selectively controlled by the touch display screen and the adjusting knob, when the function keys implement function control, for example, the function keys in the main interface shown in fig. 3, a specific presentation form during application can be as shown in fig. 3-1, fig. 3-1 is an application schematic diagram of the function keys, the function keys are mainly used for setting current and working time of the function keys, and the following function modes implement rotation of the application by the blending tool set 30, the heating function is realized by the heating part of the base, the control application of the stirring knife group 30 and the heating part is correspondingly controlled by the controller of the stirrer, and the specific application operation steps of the stirrer in the application operation can be as follows:

a. the machine working time can be set by clicking the timing icon in the standby state, the timing mark can be set after changing color, the range is 1 second to 99 minutes, 1 second plus or minus within 1 minute, 10 seconds plus or minus within 1 to 5 minutes, 30 seconds plus or minus within 5 to 20 minutes, and 1 minute plus or minus within 20 to 99 minutes. Either a knob adjustment or a finger sliding over the icon may be operable.

b. The machine working speed can be set by clicking the speed icon in the standby state, the speed icon can be set after changing color, the range is 1-10 grades, and the machine can be operated by adjusting with a knob or sliding a finger on the icon.

c. The machine heating can be set by clicking the temperature icon in the standby state, the temperature icon can be set after changing color, the setting range is 37-160 ℃, and the display section is as follows: 37-45-50-55-60-65-70-75-80-85-90-95-100-105-110-115-120-125-130-135-140-145-150-155-160 ℃. Either a knob adjustment or a finger sliding over the icon may be operable. Actual temperatures below 37 ℃ do not appear.

d. The time setting, speed setting, temperature setting (including preset temperature and actual temperature) can be selected by pressing the knob switch.

According to the setting content of the function keys, after the setting of the function keys is completed, the control keys issued by the function keys are used for controlling the stirrer to start up for application according to the function parameters set by the function keys, the stirrer is started by pressing the function keys, namely when a terminal system of the stirrer starts to work according to the function parameters set by the function keys, the adjusting knob further comprises a knob lamp which is correspondingly lightened according to the function control of the man-machine interaction interface. In addition, when the controller controls the stirrer to run by the set functional parameters, a control key below the functional key can be pressed to quit the current running control during the running process of the stirrer, and the running control is changed.

Further, in this embodiment, when the stirrer is controlled to operate by the functional parameters set by the functional keys based on the main interface of the human-computer interaction interface, the three functional key contents of the functional keys may be set independently or simultaneously, and the machine operation is controlled by the corresponding control keys after the functional settings are completed. When the stirrer starts operation according to the function parameters set by the current function key, the operation condition of the currently set operation parameters is displayed in the human-computer display interface, and the specific expression form of the operation condition can be shown as fig. 3-1, and fig. 3-1 is a schematic diagram of the operation state of the function parameters of the human-computer display interface. As shown in fig. 3-1, said fig. 3-1 represents the operation condition when the current operation parameter is applied, i.e. timing time countdown, real temperature real-time display, based on the current function parameter application state, the current function parameter operation state can be exited/suspended through the control key. And after the operation is finished based on the current functional parameters, the knob lamp of the adjusting knob is turned on to give an alarm, and further, the voice component of the base 20 can be controlled to play the currently set reminding audio, such as a loudspeaker and a clang sound to remind the user that the operation of the current mixer is finished.

Furthermore, in the main interface of the human-computer interaction interface, a control key is directly clicked to start the stirrer on the basis of the function setting of the function key without additionally setting related function parameters, and default operation function parameters are set in a controller of the stirrer. In this embodiment, the default function parameter of the function key of the main interface of the human-computer interaction interface is 1, the function key can be pressed by a plus-minus point or an adjusting knob to adjust the default gear, and the knob lamp of the control knob is gradually darkened and gradually brightened to display by the adjusting operation of the current function key gear. And starting the stirrer application based on the current default function parameters, wherein the human-computer interaction interface is provided with a device running time registration function for recording the machine running time.

According to the functional parameter setting application based on the blender, on the premise that a user may damage equipment when customizing functional parameters, the blender functional parameter application of the embodiment further has control contents of related functional parameters, and specific control contents of the blender functional parameter setting application are as follows:

a. the forward and reverse rotation can be carried out for 99 minutes at most in the 1-10 gears;

b. the stirring speed can only be 1-5 grades by using the heating function;

c. the stirring speed of the motor in the reverse rotation range of 1-10 can be switched in the forward and reverse rotation range;

and after the stirrer is started, namely after a current man-machine interaction interface main page is displayed. If no operation or operation is performed, the machine sounds a buzzer after a preset time, for example, 5 minutes, the man-machine interaction interface pops up a dialog box for a user to select the current equipment application, if the user selects to continue, the current state is kept, if the user does not select, the sleep time is preset, for example, 30 seconds and then the user switches to a sleep mode, and in the sleep mode, the stirrer can be awakened by clicking a control button or rotating an adjusting knob.

In addition, based on the device application of the current stirrer, the current running state can be exited by the control key to return to the standby interface during the running of the stirrer with the preset functional parameters. A pause may also be pressed. In order to prevent hot liquid from splashing out of the machine or swinging the machine when the hot liquid is accelerated suddenly, the stirrer disclosed by the invention also has a soft start function of the motor.

Further, referring to fig. 4, fig. 4 is a control interface of a human-machine interface based on a fixed processing module, and in the agitator, one or more fixed processing modes are provided to implement equipment application, that is, the agitator has a plurality of fixed processing functions, and the fixed processing functions are all activated by the control interface of the human-machine interface. The fixed processing function can edit the corresponding function parameters through the corresponding function parameter control interface of the human-computer interaction interface. And the fixed processing function is activated by clicking the position of the touch display screen in the control area where the human-computer interaction interface is located or rotating the adjusting knob.

Selecting a currently available processing mode to process food according to a current processing requirement, wherein the processing mode emphasizes a fixed processing mode with fixed processing parameters stored in a current blender controller, the fixed processing mode comprises a plurality of fixed processing modes which are suitable for various food processing situations, and related fixed processing parameters/processing steps of different processing modes are different according to processing purposes or processed results, and the following takes the application of one fixed processing mode as an example:

1. automatic cleaning: clicking a cleaning icon of the fixed processing mode control page to enter a program; after the food is poured out after the cooking is finished, adding vinegar and clean water (prepared in proportion) into the cup body 10 of the stirrer, selecting an automatic cleaning icon and clicking a function key to start the automatic cleaning mode, as shown in figure 4-1, figure 4-1 is an automatic cleaning fixed mode control page, and in the automatic cleaning mode of the fixed processing mode, the default heating time is 5 minutes, the operation speed is 6 grades (adjustable range: 6-8 grades), and the heating temperature is 70 ℃ (adjustable range: 60-80 ℃). The program ends the horn and chords one. Clicking to start entering a default program (time icon of touchable screen or time parameter of side knob adjustment of rotary screen), and according to the current automatic cleaning mode, clicking a prompt icon to display the using method of automatic cleaning, for example, fig. 4-2, and fig. 4-2 are function reminding pages of the automatic cleaning mode.

2. The water boiling function: clicking the water boiling function icon of the fixed processing mode control page to enter a program, specifically referring to fig. 4-3, where fig. 4-3 are water boiling mode control pages, and setting the default operating speed of the fixed function parameter of the water boiling function mode to 0 (non-adjustable) under the control content of the water boiling function mode. The heating temperature is 100 ℃ (adjustable, 70-100 ℃). When the program runs, the knob lamp emits white light, and the program ends the loudspeaker and the chord. Clicking starts to enter the default program work (time icon of touchable screen or time parameter when rotating screen with side knob adjustment). In addition, according to the current water boiling mode, a prompt icon can be clicked, the use range and the notice of the water boiling are displayed as shown in fig. 4-4, and fig. 4-4 are function reminding pages of the water boiling function mode.

3. Dough kneading functional mode: clicking a dough kneading function icon of the fixed processing mode control page to enter a program; as shown in fig. 4-5, fig. 4-5 are dough kneading function mode control pages, and under the control content of the dough kneading function module, the default operation time of the fixed function parameters of the dough kneading function mode is set to 8 minutes (adjustable: 0-15 minutes), the operation shift speed is not adjustable, the fixed shift 3 is set (no shift is displayed), and the motor is set to: the forward rotation is carried out for 3 seconds to stop for 2 seconds, the reverse rotation is carried out for 3 seconds to stop for 2 seconds, and the process is circulated until the setting time is reduced to 00: 00; the motor stops working without heating. When the program is running, the knob emits white light, and the program ends the loudspeaker and the chord. In addition, according to the current dough kneading function mode, a prompt icon can be clicked to display the use range and the notice of the dough kneading function mode, as shown in fig. 4-6, and fig. 4-6 are function reminding pages of the dough kneading function mode.

4. And (3) slow stewing function mode: clicking a slow stewing function icon of the fixed processing mode control page to enter a program; as shown in fig. 4-7, fig. 4-7 are slow stewing function mode control pages, and in the control content of the slow stewing function mode, the fixed function parameter of the slow stewing function mode is set to have a default operation time of 60 minutes (adjustable: 0-12 hours) and an operation speed of a stirring gear (non-adjustable). The heating temperature is 50 ℃ (adjustable, 37-95 ℃). When the program runs, the knob lamp emits white light, the loudspeaker emits short-time calling sound after the program is finished, and the program finishes the loudspeaker chord tone. In addition, according to the current slow stewing function mode, a prompt icon can be clicked to display the use range and the notice of the slow stewing function mode, as shown in fig. 4-8, and fig. 4-8 are function reminding pages of the slow stewing function mode.

5. And (3) a fertilizer releasing function mode: clicking a fertilizer releasing function mode icon of the fixed processing mode control page to enter a program; as shown in fig. 4-9, fig. 4-9 are the control pages of the fertilizer application function mode, and under the control content of the fertilizer application function mode, the default operation time is set to be 30 minutes (adjustable: 0-12 hours) and the operation speed is set to be 0 gear (non-adjustable). The heating temperature is 50 ℃ (adjustable, maximum 45 ℃ -65 ℃). When the program runs, the knob lamp emits white light, and the program ends the loudspeaker and the chord. And the temperature control in the fertilizer-relaxing functional mode is precise constant-temperature control. In addition, according to the current fertilizer application function mode, a prompt icon can be clicked to display the use range and the notice of the fertilizer application function mode, as shown in fig. 4-10, fig. 4-10 are function prompt pages of the fertilizer application function mode.

6. The frying function is as follows: clicking a stir-frying function mode icon of the fixed processing mode control page to enter a program; as shown in fig. 4-11, fig. 4-11 are control pages of the stir-fry function mode, and under the control content of the stir-fry function mode, the default operation time of the fixed function parameters of the stir-fry function mode is set to 20 minutes (the time value can be changed to 0-60 minutes), and the operation speed is the stirring range (unadjustable). The default heating temperature is 140 deg.C (60-160 deg.C). When the program runs, the knob lamp emits white light, and the program ends the loudspeaker and the chord. In addition, according to the current stir-fry function mode, a prompt icon can be clicked to display the use range and the notice of the stir-fry function mode, as shown in fig. 4-12, fig. 4-12 are function prompt pages of the stir-fry function mode.

7. The cooking function is as follows: clicking a cooking function mode icon of the fixed processing mode control page to enter a program; as shown in fig. 4 to 13, fig. 4 to 13 are control pages of a cooking function mode, and under the control content of the cooking function mode, the fixed function parameter of the cooking function mode is set to have a default operation time of 20 minutes (time value can be changed, 0 to 60 minutes), and an operation speed of 0 gear (non-adjustable, tool bit is not rotated). The heating temperature is uninterrupted heating (namely heating plate direct heating). When the program runs, the knob lamp emits white light, and the program ends the loudspeaker and the chord. In addition, according to the current cooking function mode, a prompt icon can be clicked to display the use range and the notice of the cooking function mode, as shown in fig. 4 to 14, fig. 4 to 14 are function reminding pages of the cooking function.

8. Fermentation function: clicking a fermentation function mode icon of the fixed processing mode control page to enter a program; as shown in fig. 4-15, fig. 4-15 are fermentation function mode control pages, and under the control content of the fermentation function mode, the fixed function parameters of the fermentation function mode are set to default display time of 00:00, an adjustable range of 0-24 hours, default display temperature of-DEG C, adjustable range of 37-70 ℃, shift of 0, and no rotation of the knife. In addition, according to the current fermentation function mode, a prompt icon can be clicked to display the use range and the notice of the fermentation function mode, as shown in fig. 4 to 16, and fig. 4 to 16 are function reminding pages of the fermentation function.

9. Thickening function: clicking a thickening function mode icon of the fixed processing mode control page to enter a program, as shown in fig. 4-17, wherein fig. 4-17 are thickening function mode control pages, and setting a fixed function parameter of the thickening function mode to be a default display time of 12:00, wherein the default display time is not adjustable, the default display temperature is 80 ℃, the adjustable temperature is 80 ℃ and 100 ℃, and a gear is a forward 1 gear (not adjustable). In addition, according to the current thickening function mode, a prompt icon can be clicked to display the use range and the notice of the thickening function mode, as shown in fig. 4 to 18, and fig. 4 to 18 are function reminding pages of the thickening function.

10. The heat preservation function: clicking a fermentation function mode icon of the fixed processing mode control page to enter a program; as shown in fig. 4-19, fig. 4-19 are heat preservation function mode control pages, and under the control content of the heat preservation function mode, the fixed function parameters of the heat preservation function mode are set to default display time of 00:00, an adjustable range of 0-24 hours, default heat preservation temperature of 60 ℃, and are not adjustable, and the gear is not adjustable. In addition, according to the current heat preservation function mode, a prompt icon can be clicked to display the use range and the notice of the heat preservation function mode, as shown in fig. 4-20, and fig. 4-20 are function reminding pages of the heat preservation function.

11. The function of stewed rice is as follows: clicking the stewed rice function mode icon of the fixed processing mode control page to enter a program, as shown in fig. 4-21, and setting the fixed function parameter of the stewed rice function mode as the default display time of 00:00, the adjustable range of 0-24 hours, the default heat preservation temperature of 60 ℃, no adjustment and the gear of-0.5 under the control content of the stewed rice function mode, wherein the stewed rice function mode icon of the fixed processing mode control page is a stewed rice function mode control page. In addition, according to the current braising function mode, a prompt icon can be clicked to display the use range and the notice of the braising function mode, and as shown in fig. 4 to 22, fig. 4 to 22 are function reminding pages of the braising function.

Topsped: as shown in fig. 4-23, fig. 4-23 are topmeasured mode control pages, and in the control content of the topmeasured mode, the fixed function parameter of the topmeasured mode is set to default time of 3 seconds, and the running time can be set by clicking the time diagram, and the time setting range is 1-15 seconds. When the motor enters the TopSpeed mode, a speed regulation function key of a function control interface of the TopSpeed mode can be clicked, the knob can be rotated clockwise freely, and the motor is started. The motor reaches the highest speed directly, the time diagram decreases from second to second until the time is 00: when 00 hours, the motor stops working and the machine gives out a finish prompt tone. The method comprises the steps that a topped mode is a high-frequency operation mode, damage conditions during equipment application are considered, the temperature of the whole stirrer at present is monitored in real time in the topped mode, the temperature of the whole stirrer at present is displayed in real time in a topped mode function page of a human-computer display page in the topped mode, a prompt message that the current temperature is too high is popped up on a display screen when the display temperature exceeds 60 ℃, and the motor with the topped mode function is started and stops working when the display temperature is recovered to 55 ℃. Clicking the "confirm" key exits the toppredicted mode and returns to the main page. In addition, according to the current topdemanded mode, a prompt icon can be clicked to display the use range and the notice of the topdemanded mode, as shown in fig. 4-24, and fig. 4-24 are topdemanded mode reminding pages.

Further, the stirrer also comprises a weighing component, and the weighing component can be activated through a human-computer interaction interface. The weighing part is mainly used for activating the weighing part when the weighing part has a weighing requirement at present, and the manner of activating the weighing part is to select a weighing function icon of the human-computer interaction interface, enter a control page of the weighing function and simultaneously activate the weighing function, and the weighing function comprises the following steps:

weighing function: entering a weighing function mode control page, as shown in fig. 4-25, and fig. 4-25 are weighing function control pages, in the weighing function application, starting the weighing component, then automatically resetting the program, weighing according to a zeroing function icon, zeroing and re-weighing; putting the required food materials into a container, after weighing, pressing an X key program, ending, and returning to a standby state; in the controller of the present invention, the weighing component can achieve weighing applications in which each weighing cannot exceed 3000g in grams.

Weighing and calibrating: the method comprises the steps that a long return-to-zero function key is pressed under a weighing interface to enter weighing calibration, 1000g of weights are placed on a machine during calibration, a correction key is pressed to calibrate until the interface stably displays 1000g, frequent jumping cannot be displayed during calibration, otherwise the correction key needs to be pressed again to calibrate again, and a return key is pressed after the interface stably displays 1000g to exit the calibration.

Based on the control content of the stirrer realized during application, when the stirrer executes the current functional application operation, the real-time monitoring operation used by a user is considered, and when the stirrer executes heating and rotating operation according to the functional parameters, the operation progress of the current operation task is displayed on a human-computer interaction interface of the touch display screen. The operation progress comprises a total operation progress, a heating progress and a rotation progress; and the operation progress of the total operation progress, the heating progress and the rotation progress is displayed independently. When the application is displayed based on the current job progress, the corresponding progress state is displayed according to the current setting of the man-machine interaction interface or the display scheme which can be realized, and based on the progress display state, the countdown function of the application function parameters displayed based on the current control function button can be reported but is not limited.

Further, based on the functional application of the human-computer interaction interface of the blender, in the human-computer interaction interface, a related functional application is further included, a menu function can be entered by clicking a key of a main menu function of the human-computer interaction interface, the main menu function is shown in fig. 5, fig. 5 is a main menu control interface of the human-computer interaction interface, in the main menu control page, a plurality of control submenus are included, and the submenus have corresponding functional applications, specific functional applications of which include but are not limited to invoking a historical fixed function mode to execute a current controller operation, such as a "my recipe" submenu, as shown in fig. 5-1, fig. 5-1 is a control page based on a my recipe submenu, in which all currently stored menu information is provided, and, in a control page based on the submenus, the album control method is characterized by further comprising a personalized album control page, as shown in fig. 5-2, fig. 5-2 is a control page based on a personalized album, in the control page of the personalized album, the operations such as album registration can be performed based on user operation, and when the album of the user is added, new editing can be performed by logging in a related webpage through a man-machine interaction page.

Based on the 'my recipe' submenu in the current human-computer interaction interface, the controller can be controlled to start the execution application of the functional parameters for realizing the recipe content based on the selection of the related recipe content in the menu. As shown in fig. 5-3, fig. 5-3 are recipe selection control pages, a corresponding recipe is selected from the recipe selection control pages and the operation of the function parameters registered in the recipe is executed, after the recipe is selected, a control page based on the recipe is displayed in a human-computer interaction interface, as shown in fig. 5-4, fig. 5-4 are recipe operation parameter control pages, when the application control of the recipe is currently executed, an operation step page based on the execution of the recipe is displayed in the human-computer display interface, the operation step page includes a plurality of operation step pages to guide a user to perform corresponding operations based on the operation step page, as shown in fig. 5-5, and fig. 5-5 are schematic diagrams of the operation step pages based on the recipe. In addition, in the function operation based on the current recipe application, the current function operation application can also be exited based on the recipe operation, as shown in fig. 5-6, and fig. 5-6 are schematic diagrams illustrating the exiting of the current recipe function operation.

In addition, in the main menu page based on the current man-machine display page, the corresponding parameter setting modification can be performed on the function application of the current controller based on the selectable control content in the current man-machine display page, the function of the control page of the function setting is shown in fig. 5-7, and fig. 5-7 are application function setting pages of the control method of the stirrer and the touch display screen. And the main menu page of the man-machine display page also comprises related help information, and the images of fig. 5-8 can be viewed, wherein the images of fig. 5-8 are the help pages of the application function of the control method of the stirrer and the touch display screen.

Considering the safe application of the terminal equipment, the detection is based on the safe use detection when the current stirrer is applied, namely, the stirrer further comprises a fault detection mechanism, the fault detection mechanism comprises a sensor and a knob lamp, the knob lamp is electrically connected with the adjusting knob, the sensor is in communication connection with the controller, and the controller controls the knob lamp to be lightened; and the controller controls the human-computer display interface to display fault reminding according to the information detected by the sensor. In addition, in the embodiment of the present invention, the blender further has an anti-dry heating function, that is, in the whole functional application mode of the blender, the current liquid volume of the blender cup body 10 is detected immediately to avoid the dry heating situation, and based on the application prompt of the dry heating, fig. 6 can be viewed, and fig. 6 is a schematic view of a dry heating prompt page of the anti-dry heating function.

Based on the control content realized by the human-computer interaction interface, the controller comprises a data communication interface, the data communication interface can be connected with external electronic equipment, and the application function of the stirrer is controlled by the external electronic equipment. In practical application, the external electronic device connected through the data communication interface may include a remote control device capable of controlling the application of the blender, that is, the remote control device is installed with related control content consistent with the functions of the blender terminal system. Further, the application system of the current blender may be upgraded through the data communication interface, that is, the interaction function of the human-computer interaction interface of the blender is updated, as shown in fig. 7, where fig. 7 is a system version update based on the human-computer interaction interface.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments 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, an air conditioner, or a network device) to execute the method according to the embodiments of the present invention.

The above description is only an alternative embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A stirrer and a touch display screen control method are provided, the stirrer comprises a cup body, a base, a stirring cutter set and a locking piece, the cup body is arranged on the base, the cup body is connected with the stirring cutter set through the locking piece, the base comprises a controller, a heating part, a touch display screen, an adjusting knob, a voice part and a data communication interface, and the touch display screen is characterized in that after the stirrer is electrified, the touch display screen displays a human-computer interaction interface, the touch display screen control method is executed based on the human-computer interaction interface, the human-computer interaction interface is provided with a plurality of different display areas for displaying processing parameters, functional processing parameters of the stirrer are set in the display areas, and the heating part of the stirrer base is started to heat the cup body and control the stirring cutter set to rotate with fixed functional parameters;

the human-computer interaction interface is also used for regulating/finishing the program operation of the stirrer, and the functional parameters for regulating the stirrer comprise heating parameters, the rotating speed of the stirring knife set, heating duration, rotating duration and heating rotating period;

the stirrer is provided with a heating function for independently controlling a heating part and an accelerating function for controlling the rotation of the stirring cutter set, and the heating function and the accelerating function can activate the rotation of the stirring cutter set through the touch screen function of a human-computer interaction interface and the mechanical selection rotating speed of a base adjusting knob; and the heating function and the accelerating function can also control and activate the stirring cutter set to rotate through the combination of the touch screen function and the mechanical selection rotating speed of the base adjusting knob.

2. The blender and touch screen control method according to claim 1, wherein when the blender performs heating and rotating operations according to the functional parameters, the operation progress of the current operation task is displayed on the human-computer interaction interface of the touch screen.

3. The blender and touch screen display control method of claim 2, wherein said job schedule comprises a total job schedule, a heating schedule and a rotation schedule;

and the operation progress of the total operation progress, the heating progress and the rotation progress is displayed independently.

4. The blender and touch screen display control method of claim 1, further comprising a weighing component that is activatable via a human-machine interface.

5. The mixer and touch screen display control method of claim 1, wherein the mixer has a plurality of fixed processing functions, and each fixed processing function activates an application through a control interface of the human-computer interaction interface.

6. The mixer and touch screen control method according to claim 5, wherein the fixed processing function is capable of editing the corresponding function parameters through a corresponding function parameter control interface of the human-machine interface.

7. The mixer and touch screen control method of claim 5, wherein the fixed processing function is activated by clicking the touch screen position of the control area where the human-computer interface is located or rotating the adjusting knob.

8. The control method of claim 1, wherein the data communication interface is accessible to an external electronic device, and the application function of the blender is controlled by the external electronic device.

9. The mixer and touch screen display control method of claim 1, wherein the voice component outputs voice prompt information according to a functional operation of a current human-machine interaction interface.

10. The mixer and touch screen display control method according to claim 1, wherein the mixer further comprises a failure detection mechanism, the failure detection mechanism comprises a sensor and a knob lamp, the knob lamp is electrically connected with the adjusting knob, the sensor is in communication connection with the controller, and the controller controls the knob lamp to be turned on;

and the controller controls the human-computer display interface to display fault reminding according to the information detected by the sensor.

Images