CN112230588A - Hair processor control method, hair processor, and storage medium - Google Patents

Abstract

The application discloses a hair processor control method, a hair processor and a storage medium, and relates to the technical field of hair care appliances, wherein the method is used in the hair processor provided with a sensor at a handle, and comprises the following steps: acquiring a grip strength value detected by the sensor; detecting a grip range to which the grip value belongs, and determining a target gear corresponding to the grip range according to a preset corresponding relation; controlling the hair processor to operate in the target gear. The problems that in the prior art, when a user curls hair, the operation is troublesome and the hair curling efficiency is low are solved; the effect of can be through applying the grip of different pressures to handle department, and then adjusting different gears and improving curly hair efficiency has been reached.

Description

Hair processor control method, hair processor, and storage medium

Technical Field

The present application relates to the field of hair care appliance technology, and in particular to a hair processor control method, a hair processor and a storage medium.

Background

The hair processor product on the current market, when the user uses the hair processor to curl hair by oneself, need one hand to hold up the hair, one hand holds hair processor handle, lead to the inconvenient operation hair processor of user, and the curling direction diverse, lead to having a lot of blind areas when using hair processor, can't convenient use hair processor after the hair is pressed from both sides to the anchor clamps, or have the maloperation hair processor and lead to damaging the risk of hair outside the sight, also the curling efficiency of hair processor is lower in the above-mentioned scheme.

Disclosure of Invention

In response to the above-described deficiencies in the art, the present application provides a hair processor control method, a hair processor, and a storage medium.

In order to solve the technical problem, the technical scheme adopted by the application is as follows:

in a first aspect, there is provided a hair processor control method for use in a hair processor having a sensor provided at a handle, the method comprising:

acquiring a grip strength value detected by the sensor;

detecting a grip range to which the grip value belongs, and determining a target gear corresponding to the grip range according to a preset corresponding relation, wherein the preset corresponding relation comprises corresponding relations between different grip ranges and different gears;

controlling the hair processor to operate in the target gear.

Optionally, the hair processor is provided with n gears, the number of the grip ranges is n, the ith grip range is that the ith threshold value is not less than the grip < the (i + 1) th threshold value, and the nth grip range is that the grip is not less than the nth threshold value; i is more than or equal to 1 and less than n, i is an integer, and n is an integer more than or equal to 2.

Optionally, the acquiring the grip strength value detected by the sensor includes:

when the sensor is a grip strength sensor, acquiring a grip strength value detected by the grip strength sensor;

and when the sensor is a Hall sensor, acquiring a Hall voltage value detected by the Hall sensor.

The method further comprises the following steps:

optionally, if the obtained grip strength value is smaller than a preset grip strength value, the step of obtaining the grip strength value detected by the sensor is continuously executed, where the preset grip strength value is a minimum grip strength value in each grip strength range in the preset corresponding relationship.

Optionally, the hair processor includes a heat generating device, and after controlling the hair processor to operate in the target gear, the method further includes:

and when the grip strength value is detected to be smaller than the critical grip strength value of the lowest gear, controlling the temperature of the heating device to be at a preset temperature.

Optionally, the hair processor comprises a heating device, and before acquiring the grip force detected by the sensor, the method further comprises:

receiving a power-on signal for turning on the hair processor;

and after the starting signal is received, controlling the heating device to preheat at a preset power.

Optionally, the receiving a power-on signal for turning on the hair processor includes:

receiving a pressing signal for pressing a starting button in the handle;

and determining that the starting signal is received when the grip strength value detected by the sensor is greater than the starting threshold while the pressing signal is received.

Optionally, the controlling the hair processor to operate in the target gear includes:

and controlling a motor and/or a heating device in the hair processor to work at the power corresponding to the target gear, wherein the motor is used for driving a fan to rotate.

Optionally, the hair processor comprises a handle and at least two functional accessories, the controlling the hair processor to operate in the target gear comprises:

after the handle is assembled with a target function accessory, controlling the hair processor to realize the target function corresponding to the target function accessory in the target gear.

In a second aspect, there is provided a hair processor comprising a memory having stored therein at least one program instruction, and a processor for implementing the method of the first aspect by loading and executing the at least one program instruction.

In a second aspect, there is provided a computer storage medium having stored therein at least one program instruction for loading and execution by a processor to perform the method of the first aspect.

Compared with the prior art, the application has the beneficial effects that:

the application provides that a sensor is arranged at a handle of a hair processor, so that a grip strength value detected by the sensor is acquired; detecting a grip range to which the grip value belongs, and determining a target gear corresponding to the grip range according to a preset corresponding relation; controlling the hair processor to operate in the target gear. The problems that in the prior art, when a user curls hair, the operation is troublesome and the hair curling efficiency is low are solved; the effect of can be through applying the grip of different pressures to handle department, and then adjusting different gears and improving curly hair efficiency has been reached.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts. Wherein:

FIG. 1 is a schematic structural view of a hair processor handle as set forth herein;

fig. 2 is a schematic structural view of various possible functional accessories in the hair processor proposed in the present application;

FIG. 3 is a schematic view of the various possible functional accessories shown in FIG. 2 after assembly to the hair processor handle shown in FIG. 1;

FIG. 4 is a schematic diagram of a sensor disposed in a handle of the hair processor set forth in the present application;

FIG. 5 is a method flowchart of a hair processor control method provided herein;

fig. 6 to 9 are schematic diagrams of a possible control circuit in the hair processor provided by the present application;

fig. 10 is a schematic perspective view of a handle of a hair processor provided in the present application.

A hair processor handle 11, a hair straightener 211, a hair curling assembly 212, a hair blower 213, a hair straightening comb 214, a hair curling comb 215, a sensor 40, a hair processor control circuit 710, a functional assembly circuit 720, a neutral 101, and a live 102.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present application more comprehensible, embodiments accompanying the present application are described in detail below with reference to the accompanying drawings. It is to be understood that the specific embodiments described herein are merely illustrative of the application and are not limiting of the application. It should be further noted that, for the convenience of description, only some of the structures related to the present application are shown in the drawings, not all of the structures. 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 application.

The terms "comprising" and "having," as well as any variations thereof, in this application are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or inherent to such process, method, article, or apparatus.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

In daily life, when people are dealing with hair, the general requirements are curling, straightening, drying and combing hair, and the hair processor control method described in the following embodiments may be used in a hair processor having the above-mentioned single function, or in a hair processor that realizes the above-mentioned multiple functions by replacing functional accessories, which is not limited in this embodiment.

When the hair processor is the above-described hair processor in which the functional parts can be replaced, the hair processor can include the hair processor handle 11 shown in fig. 1 and at least two functional parts, and the functional parts can include a styling part, a blowing part, and a combing part. Wherein the styling accessory can support curling, straightening or both curling and straightening functions through different operations, for example, the styling accessory can be the hair straightener 211 shown in fig. 2 (a) or the curling accessory 212 shown in fig. 2 (b); the blowing part may be a blower 213 for supporting a hair drying function shown in fig. 2 (c); the comb fitting can perform a combing function, and in practice, the comb fitting can be a straight comb 214 shown in fig. 2 (d) or a curling comb 215 shown in fig. 2 (e) depending on the shape of hair after combing. In practice, the curling iron 212 and the curling comb 215 of the present embodiment may comprise a plurality of fittings with different sizes, since the curvature of the curls required for different hairstyles is different, and will not be described in detail herein. Certainly, in actual implementation, the functional accessory may also be an accessory for implementing other functions, which is not limited in this embodiment.

Referring to fig. 3, there is shown a schematic structural view of various hair disposers constructed after the various functional accessories of fig. 2 are assembled to a hair treater handle 11. The hair processor shown in fig. 3 (a) is a hair processor configured after the functional attachment shown in fig. 2 (a) is assembled, the hair processor shown in fig. 3 (b) is a hair processor configured after the functional attachment shown in fig. 2 (b) is assembled, and so on.

In addition, in various application scenarios of the present embodiment, in conjunction with fig. 4, a sensor 40 may be provided at the handle of the hair processor, the sensor 40 being used to detect the grip strength value of the user. The sensor 40 may be disposed at a predetermined position in the hair processor handle 11, the predetermined position being an inner wall of an outer housing of the hair processor handle 11, or an outer wall of an inner housing of the hair processor handle 11, and the embodiment is not limited to the specific position. Also, the sensor 40 may be provided at a position corresponding to the finger belly when the user grips at a preset position in the hair processor grip 11 based on ergonomics. In addition, in order to enable the sensor 40 to detect the grip strength quickly and accurately, one or more sensors 40 may be provided; when a plurality of sensors are included, the sensors may be uniformly distributed at the preset position, or distributed in a dot-like manner or distributed in an array manner at the preset position, or distributed and arranged along the vertical axis at the position corresponding to the finger pulp, which is not limited herein.

In addition, the sensor 40 may be disposed at a position statistically derived from the general position of the user holding the handle, such as the position shown at 10 in fig. 1 and 2. Also, in a possible embodiment, in order to prompt the user about the position of the sensor 40, a prompt component may be further provided at the position of the sensor 40, for example, a button with a preset color is provided at the position of the sensor 40 in the handle. Accordingly, the controller may control the hair processor to perform a corresponding operation according to the grip force detected by the sensor, in a specific control method as described below.

Referring to fig. 5, which shows a flowchart of a method of controlling a hair processor, which can be used in the hair processor as described above, according to an embodiment of the present application, the method of controlling the hair processor can include:

step 501, a grip force value detected by a sensor is obtained.

When the user is using the hair processor, the user can hold the handle, and accordingly, the sensor in the handle can detect the user's grip value. Referring to fig. 6, a schematic diagram of the control circuitry in the hair processor handle is shown. As shown in fig. 6, the control circuit includes a motor, a drive for driving the motor (M), an MCU (micro controller Unit), a sensor, a heat generating device, and other associated components. The MCU is provided with an ADC (analog to digital converter), and other related components may include a fan, a pull-down resistor, and the like. After the grip strength is detected by the sensor, an MCU (micro controller Unit) may obtain the grip strength value detected by the sensor accordingly. Fig. 6 shows only the sensors, MCU, ADC, drive and motor in the control circuit for schematic illustration. Wherein:

and when the sensor is a grip strength sensor, acquiring a grip strength value detected by the grip strength sensor. The grip strength sensor can feed back the grip strength value in a mode of feeding back a voltage signal to the MCU, and the larger the fed-back voltage value is, the more the grip strength value of the corresponding grip strength is, and the smaller the fed-back voltage value is, the smaller the grip strength value of the corresponding grip strength is.

And when the sensor is a Hall sensor, acquiring a Hall voltage value detected by the Hall sensor. When the user holds the handle, the magnetic field of the Hall sensor can change due to the influence of the grip of the user, correspondingly, the Hall sensor can detect the Hall voltage value, and the MCU can correspondingly acquire the Hall voltage value by combining with the graph 6.

The above is only exemplified by taking the sensor as the grip strength sensor or the hall sensor, and in actual implementation, the sensor may also be other sensors capable of detecting the grip strength, and the specific implementation of the present embodiment is not limited.

It should be added that, in practical implementation, a power-on button may be provided in the hair processor, and after the user presses the power-on button, the hair processor is powered on, and then the step may be executed. Of course, it is also possible for the user to automatically turn on after holding the handle and applying pressure.

Step 502, detecting a grip range to which the grip value belongs, and determining a target gear corresponding to the grip range according to a preset corresponding relation;

generally, a motor and a heat generating device may be included in the hair processor, and when various functions are implemented, the motor is rotated to drive the fan to rotate to blow air, or the heat generating device is heated, or the motor is rotated and the heat generating device is heated at the same time. However, according to different personal use requirements, the motor needs to be controlled to rotate at different speeds or the heating device needs to be controlled to heat at different powers, so that a plurality of gears can be set in the hair processor, after the grip strength is detected, the grip strength range to which the grip strength value belongs can be detected, and the gear required to be used by the current user is determined according to the preset corresponding relationship. The preset corresponding relationship is a corresponding relationship between different grip ranges and different gears, and the preset corresponding relationship may be a default corresponding relationship or a user-defined corresponding relationship. The preset corresponding relation is taken as the user-defined corresponding relation for example, before a certain junior female uses the hair processor, the preset corresponding relation can be set according to the strength of the female, and the grip value of the grip range in the preset corresponding relation is smaller; while a certain adult man can set a larger corresponding relationship between each grip range and the gear position before using the hair processor.

The hair processor is provided with n gears, the grip range is n, namely n thresholds can be preset, the ith grip range is that the ith threshold is not more than the grip and is less than the (i + 1) th threshold, and the nth grip range is that the grip is not less than the nth threshold; i is more than or equal to 1 and less than n, i is an integer, and n is an integer more than or equal to 2. And when the grip range to which the grip belongs is detected to be the ith grip, determining that the hair processor needs to work in the i-th gear.

For example, 3 shift positions are provided for illustration, there may be 3 grip ranges, where the 1 st grip range is the 1 st threshold value ≦ grip < 2 nd threshold value, the 2 nd grip range is the 2 nd threshold value ≦ grip < 3 rd threshold value, and the 3 rd grip range is the 3 rd threshold value ≦ grip.

In step 503, the hair processor is controlled to operate in the target gear.

After determining the target gear currently required to be used by the user, the hair processor may be controlled to operate in the target gear. Wherein, this step can include: and controlling a motor and/or a heating device in the hair processor to work at the power corresponding to the target gear.

Of course, when the hair processor used in the present application is a hair processor that can realize different functions by replacing the functional accessories, the present step may include: after the handle is assembled with the target function accessory, the hair processor is controlled to realize the target function corresponding to the target function accessory in the target gear.

After the target function accessory is fitted to the handle, the target function corresponding to the target function accessory is determined in the following manner:

in a first possible embodiment:

each functional accessory is provided with an identification module, and the information identified by the identification modules in different functional accessories is different.

The identification module is at least one of a resistor, a sensor, and a communication component. Wherein, the sensor can be an infrared sensor; the Communication component carries identification information, and the Communication component may be at least one of an NFC (Near Field Communication) component and a bluetooth component. The identification module is used to identify each functional accessory after the hair processor handle is assembled with the functional accessory. That is, the hair processor handle can recognize what kind of functional accessory is currently mounted by recognizing the identification module. For example, it is not necessary to distinguish between a hair curling device, a hair straightening device, and a hair drying device, and the description thereof is omitted here.

The identification module is taken as a resistor for illustration, resistors with different resistance values are arranged in different functional accessories, and different functions are identified through different resistance values. For another example, when the identification module is an NFC component, different functions can be identified by different NFC information.

After the hair processor handle 11 is assembled with the target function accessory, the MCU can recognize the identification module in the target function accessory through the ADC, and then realize the corresponding function according to the recognition result.

When the identification module is a resistor, the target resistance value in the target function accessory can be identified and obtained, and the hair processor is controlled to realize the corresponding target function according to the identified target resistance value.

Referring to fig. 7, a schematic diagram of one possible control circuit 710 in the hair processor handle 11 is shown. Referring to fig. 7, after the target function accessory is assembled with the handle of the hair processor, the MCU can read the resistance R2 in the target function accessory through the ADC, and control the hair processor to realize the target function according to the read resistance of R2. Fig. 7 is only illustrated by showing some components, and in an actual implementation, more or fewer components may be further included, which is not limited by this embodiment, and in the drawing, 720 is a schematic diagram of a circuit in a functional component. As described above by only taking the ADC as an example to read the resistance of the target functional component, optionally, the control circuit 710 may further include a second sensor for identifying the resistance value, the second sensor is connected to the MCU, and after the handle of the hair processor is assembled with the functional component 720, the second sensor is connected to the circuit of the connected resistance, and at this time, the second sensor can identify the resistance value of the resistance in the circuit. For example, referring to fig. 8, a circuit diagram of the control circuit 710 including the second sensor is shown.

Optionally, after the resistance value of R2 is read, the target function corresponding to the read resistance value is queried according to the preset correspondence between different resistance values and different functions, so as to control the hair processor to implement the target function. Optionally, under the influence of the power supply amount when the handle of the hair processor is assembled with the functional accessory, the read resistance value may deviate from the actual resistance value, so the preset corresponding relationship in this embodiment may be a corresponding relationship between different resistance value ranges and different functions, at this time, after the resistance value of the resistor in the target functional accessory is read, the resistance value range to which the read resistance value of the resistor belongs may be determined, the function corresponding to the determined resistance value range is queried, and the hair processor is controlled to implement the determined function. For example, if the read resistance value is 2 Ω, the resistance value falls within a range of 1.5 Ω to 2.5 Ω, and the function corresponding to the range is a curling function, the hair processor can be controlled to implement the curling function. It should be noted that if the function corresponding to the read resistance value cannot be determined, the flow ends.

When the identification module is a communication component, target identification information carried in the communication component in advance can be identified and obtained, and the hair processor is controlled to realize the corresponding target function according to the identified target identification information.

Optionally, the temperature and wind speed required by different functional accessories are different, and therefore, the step of controlling the hair processor to realize the target function in the present embodiment includes: and controlling a motor and/or a heating device in the hair processor to work to realize the target function, wherein the motor is used for driving the fan to rotate.

Wherein, the control motor rotates with different rotational speeds and can realize different wind speeds, and the heating power of control heater strip can realize different temperatures.

For example, the target resistance value indicates that the target functional component is an air blowing component, i.e., the motor and the heating device can be controlled to work.

In a second possible embodiment: referring to fig. 9, which shows a schematic circuit diagram of a control circuit of a hair processor provided in an embodiment of the present application, as shown in fig. 9, the control circuit includes: the device comprises an MCU, a motor drive, a motor (represented by M in the figure), a live wire (not shown in the figure) and n zero lines, wherein the MCU is connected with the motor drive, the motor drive is used for driving the motor to rotate, and n is an integer more than or equal to 2;

after the functional accessory is assembled, each zero line is connected with the zero line end of the functional accessory and is grounded after being connected with the zero line end; and the resistance value is different between the MCU and the functional parts after the different functional parts are assembled. In practice, the MCU can recognize the resistance value through the ADC after the hair processor handle 11 is assembled with the target function accessory.

The resistance value difference between the MCU after the assembly of different function accessories can be through two kinds of implementation, first, through setting up the resistance of different resistance values in control circuit, and the second sets up the resistance of different resistance values in the function accessory. Therefore, the following description will be made separately for two implementations.

In a first possible implementation manner, the control circuit may include m resistors, where m is an integer greater than or equal to n, at least one resistor is connected between each zero line of the control circuit and the MCU, and the resistances of the resistors connected between different zero lines and the MCU are different. The resistor connected between the different zero lines and the MCU may be one resistor or a plurality of resistors, and when there are a plurality of resistors, the plurality of resistors may be connected in series or in parallel, and the connection relationship is not limited in this embodiment. Fig. 8 is schematically illustrated by connecting a resistor between each neutral line and the MCU. In addition, after the functional assembly is assembled with the hair processor handle, referring to fig. 8, each resistor in the control circuit 710 may be grounded through the elastic sheet in the functional assembly 720, thereby forming a circuit.

In a second possible implementation manner, only one live wire and one zero line may be set in the control circuit 710, and different resistance values are set in different functional accessories, so that after the functional accessories are assembled, the zero line is connected with the zero line end of the functional accessories and then grounded, and the MCU can distinguish which kind of currently assembled functional accessories are according to the different identified resistances in the different functional accessories, which is not described herein again in this embodiment. By providing the resistors for indicating the different functional accessories in the respective functional accessories, the control circuit in the handle of the hair processor is simplified.

In summary, after the different functional accessories are assembled, the MCU can identify what kind of functional accessory the currently assembled functional accessory is by identifying the resistance value of the resistor.

In the second implementation manner of this step, when at least two zero lines are set, in order to avoid the problem that the identification of the functional accessory is mistaken due to the fact that the distance between two adjacent zero lines is short after the functional accessory is assembled, in one possible implementation manner, the pins of n zero lines are distributed along the inner wall periphery of the connecting end of the hair processor handle, for example, please refer to fig. 10, which shows a possible distributed setting manner of 3 zero lines 101, in order to avoid the problem that the identification of the functional accessory is mistaken for the circuit misconnecting because of the short distance between two adjacent zero lines. Optionally, the distance between the pins of two adjacent zero lines 101 on the inner wall peripheral side is greater than the preset distance. Through n zero line 101 distributing type settings for after the function accessory is assembled, because the distance between two adjacent zero lines 101 is greater than the distance of predetermineeing and makes every function accessory can link to each other with the zero line 101 that corresponds, and then accurate discernment obtains the function accessory of current assembly, has improved the discernment degree of accuracy of function accessory. The diagram 102 shows the fire line.

Optionally, the leading-out ends of the n zero lines in the control circuit can be realized as spring pieces, so that after the functional accessory is assembled, the n zero lines can be in good contact with the zero line ends in the functional accessory, and the problem that the functional accessory cannot be identified or is identified wrongly due to poor contact is avoided.

In summary, a sensor is arranged at a handle of the hair processor, so as to obtain a grip strength value detected by the sensor; detecting a grip range to which the grip value belongs, and determining a target gear corresponding to the grip range according to a preset corresponding relation; controlling the hair processor to operate in the target gear. The problems that in the prior art, when a user curls hair, the operation is troublesome and the hair curling efficiency is low are solved; the effect of can be through applying the grip of different pressures to handle department, and then adjusting different gears and improving curly hair efficiency has been reached.

In a possible embodiment of the above embodiments, the user needs to adjust the position in the middle of curling hair using the hair processor, that is, the user may place the hair processor on a table, or the user may reduce the grip to adjust the position, but continue to use the hair processor, so that when the hair processor includes the heating device, in order to reduce the wear and increase the time for the heating device to reach the preset temperature required for curling hair, after controlling the hair processor to operate at the target gear, the method further includes:

and when the grip strength is detected to be smaller than the critical grip strength of the lowest gear, controlling the temperature of the heating device to be at a preset temperature. A temperature sensor can be arranged around the heating device, and the heating device is controlled to be kept at a preset temperature by detecting the temperature of the temperature sensor.

For example, when the grip strength detected by the sensor is smaller than a first threshold, the heating device may be controlled to stop heating, the temperature of the temperature sensor may be obtained in real time, and when the detected temperature is lower than a preset temperature, the heating device may be controlled to continue heating; and controlling the heating device to stop heating when the detected temperature is higher than the preset temperature.

In another possible embodiment of the above embodiments, since the user may start the hair processor first when picking up the hair processor and then select the hair to be operated, when the hair processor needs to generate heat by using the heat generating device during operation, in order to enable the user to reach the required temperature quickly when using the hair processor, before acquiring the grip strength detected by the sensor, the method further includes:

firstly, receiving a starting signal for starting a hair processor;

secondly, after receiving the starting signal, the heating device is controlled to preheat with preset power.

In addition, since the heat generating device generates heat after the hair processor starts to operate, in order to avoid danger to the user during misoperation, especially scald children during children misoperation, the hair processor receives a power-on signal for turning on the hair processor, which comprises:

receiving a pressing signal of a starting button in a pressing handle;

and determining that the starting-up signal is received when the grip strength detected by the sensor is greater than the starting-up threshold while the pressing signal is received.

By receiving the pressing signal and the grip strength being greater than the starting threshold value at the same time, the hair processor is started, and risks caused by misoperation are avoided.

In a further possible embodiment of the foregoing embodiment, after obtaining the grip strength value detected by the sensor, the method may further include:

firstly, detecting whether the obtained grip strength value is smaller than a preset grip strength value;

the preset grip strength value is the minimum grip strength value in each grip strength range in the preset corresponding relationship. I.e. the preset grip value is the 1 st threshold.

Secondly, if the obtained grip strength value is smaller than the preset grip strength value, the step of obtaining the grip strength value detected by the sensor is continuously executed.

When the obtained grip value is smaller than the preset grip value, it indicates that the grip applied by the user cannot trigger the hair processor to work, and therefore the step of obtaining the grip value is continuously performed at this time, which is not described herein again.

An embodiment of the present application also provides a hair processor comprising a memory having at least one program instruction stored therein and a processor for implementing the method as described above by loading and executing the at least one program instruction.

An embodiment of the present application also provides a computer storage medium having at least one program instruction stored therein for loading and execution by a processor to implement the method as described above.

The above description is only for the purpose of illustrating embodiments of the present invention and is not intended to limit the scope of the present invention, and all modifications, equivalents, and equivalent structures or equivalent processes that can be used directly or indirectly in other related fields of technology shall be encompassed by the present invention.

Claims (11)

1. A hair processor control method for use in a hair processor having a sensor provided at a handle, the method comprising:

acquiring a grip strength value detected by the sensor;

detecting a grip range to which the grip value belongs, and determining a target gear corresponding to the grip range according to a preset corresponding relation, wherein the preset corresponding relation comprises corresponding relations between different grip ranges and different gears;

controlling the hair processor to operate in the target gear.

2. The method according to claim 1, wherein n gears are provided for the hair processor, n grip ranges are provided, wherein the ith grip range is defined as the grip being ≦ grip < i +1 th threshold, and wherein the nth grip range is defined as the grip being greater than or equal to the nth threshold; i is more than or equal to 1 and less than n, i is an integer, and n is an integer more than or equal to 2.

3. The method of claim 1, wherein the obtaining the grip strength value detected by the sensor comprises:

when the sensor is a grip strength sensor, acquiring the grip strength value detected by the grip strength sensor;

and when the sensor is a Hall sensor, acquiring a Hall voltage value detected by the Hall sensor.

4. The method of claim 1, further comprising:

and if the obtained grip strength value is smaller than a preset grip strength value, continuing to execute the step of obtaining the grip strength value detected by the sensor, wherein the preset grip strength value is the minimum grip strength value in each grip strength range in the preset corresponding relationship.

5. The method of claim 1, wherein the hair processor comprises a heat generating device, and after said controlling the hair processor to operate in the target gear, further comprising:

and when the grip strength value is detected to be smaller than the critical grip strength value of the lowest gear, controlling the temperature of the heating device to be at a preset temperature.

6. The method of claim 1, wherein the hair processor comprises a heat generating device, and wherein prior to obtaining the grip value detected by the sensor, the method further comprises:

receiving a power-on signal for turning on the hair processor;

and after the starting signal is received, controlling the heating device to preheat at a preset power.

7. The method of claim 6, wherein receiving a power-on signal to turn on the hair processor comprises:

receiving a pressing signal for pressing a starting button in the handle;

and determining that the starting signal is received when the grip strength value detected by the sensor is greater than the starting threshold while the pressing signal is received.

8. The method of claim 1, wherein said controlling said hair processor to operate in said target gear comprises:

and controlling a motor and/or a heating device in the hair processor to work at the power corresponding to the target gear.

9. The method of any one of claims 1 to 8, wherein the hair processor comprises a handle and at least two functional accessories, and wherein said controlling the hair processor to operate in the target gear comprises:

after the handle is assembled with a target function accessory, controlling the hair processor to realize the target function corresponding to the target function accessory in the target gear.

10. A hair processor, characterized in that it comprises a memory in which at least one program instruction is stored and a processor, which by loading and executing said at least one program instruction, implements the method according to any one of claims 1 to 9.

11. A computer storage medium having stored therein at least one program instruction for loading and execution by a processor to perform the method of any of claims 1 to 9.

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