CN115781773B - Electric hair clipper control method, system, device and storage medium - Google Patents

Abstract

The application relates to a control method, a control system, a control device and a storage medium of electric hair clippers, which relate to the technical field of pruning tools, and the control method comprises the following steps: acquiring starting information; according to the corresponding relation between the starting information and the motor work initial information, analyzing and acquiring the motor work initial information corresponding to the starting information, and sending the motor work initial information to a motor in the electric clipper; acquiring a blade working actual pressure value and judging whether the blade working actual pressure value is larger than a blade idle pressure value or not; if yes, analyzing and calculating the difference between the actual blade working pressure value and the idle blade pressure value and taking the difference as the excess blade working pressure value; according to the corresponding relation between the excess value of the working pressure of the blade and the excess adjustment information of the motor control, the excess adjustment information of the motor control corresponding to the excess value of the working pressure of the blade is obtained through analysis and sent to a motor in the electric hair clipper; if not, the motor is made to continue to operate. The electric clipper has the effect of prolonging the time for the electric clipper to reach the temperature easily scalding the skin of a user when in use.

Description

Electric hair clipper control method, system, device and storage medium

Technical Field

The application relates to the technical field of pruning tools, in particular to a method, a system, a device and a storage medium for controlling electric hair clippers.

Background

The pruning tool is used for pruning the article so that the length or the whole appearance of the article meets the requirements of people, and different pruning tools are used for pruning the article according to different use scenes and different use objects. When cutting hair, people typically cut hair with electric hair clippers.

In the related art, the electric hair clipper comprises an upper blade, a lower blade, a motor, an eccentric head and a shell, wherein the upper blade, the lower blade, the motor and the eccentric head are all arranged in the shell, the eccentric head is fixedly arranged on an output shaft of the motor, and a connecting frame for clamping the eccentric head is arranged on the upper blade. The motor operates with fixed power, so that the eccentric head is driven to eccentrically swing, the connecting frame is driven by the eccentric head to move, and the connecting frame drives the upper blade to regularly reciprocate left and right, so that the upper blade moves relative to the lower blade, and the hair cutting function is realized.

With respect to the related art in the above, the inventors found the following drawbacks: when the electric clipper works, the temperature between the upper blade and the lower blade is slowly increased due to the heat generated by friction caused by relative dislocation between the upper blade and the lower blade, and the moving frequency between the upper blade and the lower blade is unchanged due to the fact that the electric clipper operates at fixed power, so that the temperature between the upper blade and the lower blade is increased at fixed speed, the electric clipper reaches the temperature easy to scald the skin of a user after being used for a period of time, the electric clipper is easy to scald the skin of the user when being used, and the electric clipper has room for improvement.

Disclosure of Invention

In order to prolong the time for the electric clipper to reach the temperature easy to scald to the skin of a user when the electric clipper is used, the application provides an electric clipper control method, an electric clipper control system, an electric clipper control device and a storage medium.

In a first aspect, the present application provides a control method of electric hair clipper, which adopts the following technical scheme:

an electric clipper control method, comprising:

acquiring starting information;

according to the corresponding relation between the starting information and the preset motor work initial information, analyzing and obtaining the motor work initial information corresponding to the starting information, and sending the motor work initial information to a motor in the electric clipper;

acquiring a blade working actual pressure value;

judging whether the actual working pressure value of the blade is larger than a preset idle blade pressure value or not;

if so, according to the blade working actual pressure value and the blade idle pressure value, analyzing and calculating a difference value between the blade working actual pressure value and the blade idle pressure value and taking the difference value as an excess value of the blade working pressure;

according to the corresponding relation between the excess value of the working pressure of the blade and the preset excess adjustment information of the motor control, analyzing and obtaining the excess adjustment information of the motor control corresponding to the excess value of the working pressure of the blade, and sending the excess adjustment information of the motor control to a motor in the electric hair clipper;

If not, the motor in the electric clipper is enabled to continue to work.

By adopting the technical scheme, after the starting information is acquired, the motor operation initial information is analyzed and acquired, and the motor operation initial information is sent to the motor in the electric hair cutter, so that the motor in the electric hair cutter starts to operate, then the blade operation actual pressure value is acquired, and whether the blade operation actual pressure value is larger than a preset blade idling pressure value is judged, when the blade operation actual pressure value is larger than the preset blade idling pressure value, the difference value between the blade operation actual pressure value and the blade idling pressure value is analyzed and calculated through the blade operation actual pressure value and the blade idling pressure value, the difference value between the blade operation actual pressure value and the blade idling pressure value is used as the blade operation pressure excess value, then the motor control excess adjustment information is acquired through the blade operation pressure excess value analysis, and the motor control excess adjustment information is sent to the motor in the electric hair cutter, when the blade operation actual pressure value is not larger than the preset blade idling pressure value, the motor in the electric hair cutter continues to operate, when the blade operation actual pressure value is not larger than the preset blade idling pressure value, the difference value between the blade operation actual pressure value and the blade idling pressure value is not larger than the preset blade idling pressure value, and the motor control excess adjustment information is controlled, and the electric hair cutter is further heated, when the whole electric hair cutter is started, and the electric hair cutter reaches the skin cutter reaches the maximum operation time, and the skin temperature is easy to reach the end when the electric hair cutter is reached.

Optionally, according to a corresponding relation between the starting information and preset initial motor operation information, analyzing and obtaining initial motor operation information corresponding to the starting information includes:

inquiring and acquiring preset motor model information according to the starting information;

according to the corresponding relation between the motor model information and a preset motor starting initial voltage value, a preset motor starting initial current value, a preset motor starting stable voltage value and a preset motor starting stable current value, analyzing and obtaining a motor starting initial voltage value, a motor starting initial current value, a motor starting stable voltage value and a motor starting stable current value which correspond to the motor model information;

and taking the motor starting initial voltage value, the motor starting initial current value, the motor starting stable voltage value and the motor starting stable current value as motor working initial information.

Through adopting above-mentioned technical scheme, obtain through the inquiry of start-up information to the motor model information that presets, rethread motor model information analysis obtains motor start-up initial voltage value, motor start-up initial current value, motor start-up steady voltage value and motor start-up steady current value, and regard motor start-up initial voltage value, motor start-up initial current value, motor start-up steady voltage value and motor start-up steady current value as motor work initial information, thereby improve the accuracy of the motor work initial information that obtains, the motor in the convenient electric clipper of controlling.

Optionally, according to a correspondence between the excess value of the working pressure of the blade and preset excess adjustment information of the motor control, analyzing and obtaining the excess adjustment information of the motor control corresponding to the excess value of the working pressure of the blade includes:

judging whether the excess value of the working pressure of the blade is consistent with a preset excess pressure reference value or not;

if yes, according to the corresponding relation between the pressure excess reference value and preset excess reference adjustment information, analyzing and obtaining excess reference adjustment information corresponding to the pressure excess reference value, and taking the excess reference adjustment information as motor control excess adjustment information;

if not, analyzing and acquiring trimming object type information corresponding to the excess value of the working pressure of the blade according to the corresponding relation between the excess value of the working pressure of the blade and the preset trimming object type information;

according to the corresponding relation between the trimming object type information and the preset type influence adjustment information, analyzing and acquiring the type influence adjustment information corresponding to the trimming object type information, and taking the type influence adjustment information as motor control excess adjustment information.

By adopting the technical scheme, whether the blade working pressure excess value is consistent with the preset pressure excess reference value is judged, when the blade working pressure excess value is consistent with the preset pressure excess reference value, excess reference adjustment information is obtained through pressure excess reference value analysis, the excess reference adjustment information is used as motor control excess adjustment information, when the blade working pressure excess value is inconsistent with the preset pressure excess reference value, trimming object type information is obtained through blade working pressure excess value analysis, type influence adjustment information is obtained through trimming object type information analysis, and the type influence adjustment information is used as motor control excess adjustment information, so that the motor power is changed along with different trimming objects, the accuracy of the obtained motor control excess adjustment information is improved, and finally the aim of prolonging the time of easily scalding the skin of a user when the electric clipper is used is achieved.

Optionally, the method further comprises the step of sending the motor control excess adjustment information to the motor in the electric clipper or after the motor in the electric clipper is enabled to continue to work, specifically as follows:

acquiring preset blade material information;

according to the corresponding relation between the blade material information and the preset material heat dissipation influence value, analyzing and obtaining the material heat dissipation influence value corresponding to the blade material information;

according to the corresponding relation between the material heat dissipation influence value and the preset motor control material adjustment information, analyzing and obtaining the motor control material adjustment information corresponding to the material heat dissipation influence value, and sending the motor control material adjustment information to a motor in the electric clipper.

Through adopting above-mentioned technical scheme, acquire through the blade material information to acquire the material heat dissipation influence value through blade material information analysis, rethread material heat dissipation influence value analysis acquires motor control material adjustment information, and sends motor control material adjustment information to the motor in the electric clipper, thereby make motor power adjust along with the material difference of blade, and then reduce the motor in the electric clipper and carry out the time of work with the highest operating power in whole working process, finally reach the purpose that reaches the time that scalds the temperature to user's skin easily when using of extension electric clipper.

Optionally, according to a correspondence between the blade material information and a preset material heat dissipation influence value, analyzing and obtaining the material heat dissipation influence value corresponding to the blade material information includes:

according to the corresponding relation between the blade material information and a preset material heat dissipation reference value, analyzing and obtaining a material heat dissipation reference value corresponding to the blade material information;

acquiring current environmental information;

according to the corresponding relation between the current environment information, the blade material information and the preset material heat dissipation environment influence value, analyzing and obtaining the material heat dissipation environment influence value corresponding to the current environment information and the blade material information;

and analyzing and obtaining the material heat dissipation influence value corresponding to the material heat dissipation reference value and the material heat dissipation environment influence value according to the corresponding relation between the material heat dissipation reference value, the material heat dissipation environment influence value and the preset material heat dissipation influence value.

Through adopting above-mentioned technical scheme, acquire the material heat dissipation benchmark value through blade material information analysis, acquire current environmental information again, acquire the material heat dissipation environmental impact value through current environmental information and blade material information analysis, the material heat dissipation impact value is acquireed through material heat dissipation benchmark value and material heat dissipation environmental impact value analysis to make the material heat dissipation impact value change along with the change of current environmental information, improve the accuracy of the material heat dissipation impact value that acquires, finally reach the purpose that the extension electric clipper reaches the time of scalding the temperature to user's skin easily when using.

Optionally, according to the corresponding relation between the current environmental information, the blade material information and the preset material heat dissipation environmental impact value, analyzing and obtaining the material heat dissipation environmental impact value corresponding to the current environmental information and the blade material information includes:

the current environment information comprises current environment temperature information and current environment humidity information;

according to the corresponding relation between the current environmental temperature information, the blade material information and the preset heat dissipation temperature influence value, analyzing and obtaining the heat dissipation temperature influence value corresponding to the current environmental temperature information and the blade material information;

according to the corresponding relation between the current environmental humidity information, the blade material information and the preset heat dissipation humidity influence value, analyzing and obtaining the heat dissipation humidity influence value corresponding to the current environmental humidity information and the blade material information;

and analyzing and obtaining the material heat radiation environment influence value corresponding to the heat radiation temperature influence value and the heat radiation humidity influence value according to the corresponding relation between the heat radiation temperature influence value, the heat radiation humidity influence value and the preset material heat radiation environment influence value.

Through adopting above-mentioned technical scheme, because current environmental information includes current environmental temperature information and current environmental humidity information, acquire the heat dissipation temperature influence value through current environmental temperature information and blade material information analysis, acquire the heat dissipation humidity influence value through current environmental humidity information and blade material information analysis, the rethread heat dissipation temperature influence value and heat dissipation humidity influence value analysis acquire the heat dissipation environment influence value of material, thereby make the heat dissipation environment influence value of material change along with the change of current environmental temperature information and current environmental humidity information, and then improve the accuracy of the heat dissipation environment influence value of material that acquires, finally reach the purpose that the extension electric clipper reaches the time of scalding the temperature to user's skin easily when using.

Optionally, the method further comprises the step of sending the motor control material adjustment information to a motor in the electric clipper, specifically comprising the following steps:

acquiring an actual temperature value of the blade;

judging whether the actual temperature value of the blade is larger than a preset reference temperature value of the blade;

if yes, sending preset overheat alarm information to a terminal held by an operator, and sending preset overheat stop information to a motor in the electric clipper;

if not, the motor in the electric clipper is enabled to continue to work.

Through adopting above-mentioned technical scheme, through acquireing the blade actual temperature value to judge whether the blade actual temperature value is greater than preset blade reference temperature value, when the blade actual temperature value is greater than preset blade reference temperature value, send preset overheat alarm information to operator's terminal that holds, send preset overheat stop information to the motor in the electric clipper, when the blade actual temperature value is not greater than preset blade reference temperature value, make the motor in the electric clipper keep on working, thereby make the electric clipper be difficult to scald user's skin in the use, thereby improve the result of use of electric clipper.

In a second aspect, the present application provides an electric hair clipper control system, which adopts the following technical scheme:

An electric clipper control system, comprising:

the acquisition module is used for acquiring starting information, a blade working actual pressure value, current environment information and a blade actual temperature value;

a memory for storing a program of a control method of electric hair clipper according to any one of the first aspects;

a processor, a program in the memory being capable of being loaded by the processor for execution and implementing a method of controlling electric hair clipper according to any one of the first aspects.

By adopting the technical scheme, the starting information, the blade working actual pressure value, the current environment information and the blade actual temperature value are acquired through the acquisition module, and then the program in the memory is loaded and executed through the processor, so that the time that the motor in the electric hair clipper works with the highest working power in the whole working process is reduced, and finally the purpose of prolonging the time that the electric hair clipper reaches the temperature easy to scald the skin of a user when in use is achieved.

In a third aspect, the present application provides an electric hair clipper control device, which adopts the following technical scheme:

an electric hair clipper control apparatus comprising a memory and a processor, the memory having stored thereon a computer program capable of being loaded by the processor and executing an electric hair clipper control method as set forth in any one of the first aspects.

By adopting the technical scheme, the program in the memory is loaded and executed through the processor, so that the time of the motor in the electric clipper working with the highest working power in the whole working process is reduced, and finally the aim of prolonging the time of the electric clipper reaching the temperature easy to scald the skin of a user when the electric clipper is used is achieved.

In a fourth aspect, the present application provides a computer storage medium, capable of storing a corresponding program, and having the characteristics of being convenient for realizing prolonging the time for an electric clipper to reach a temperature easy to scald to the skin of a user when in use, by adopting the following technical scheme:

a computer storage medium storing a computer program capable of being loaded by a processor and executing a method of controlling electric hair clipper according to any one of the first aspects.

By adopting the technical scheme, the program is stored through the storage medium, so that the program is loaded and executed by the processor when needed, the time of working with the highest working power of the motor in the electric clipper in the whole working process is reduced, and finally the aim of prolonging the time of reaching the temperature easy to scald to the skin of a user when the electric clipper is used is fulfilled.

In summary, the present application includes at least one of the following beneficial technical effects:

1. After the starting information is acquired, analyzing and acquiring initial motor operation information, sending the initial motor operation information to a motor in the electric hair clipper, so that the motor in the electric hair clipper starts to operate, acquiring an actual blade operation pressure value, judging whether the actual blade operation pressure value is larger than a preset blade idling pressure value, when the actual blade operation pressure value is larger than the preset blade idling pressure value, analyzing and calculating the difference between the actual blade operation pressure value and the blade idling pressure value to serve as an excessive blade operation pressure value, analyzing and acquiring motor control excessive regulation information through the excessive blade operation pressure value, sending the motor control excessive regulation information to the motor in the electric hair clipper, and when the actual blade operation pressure value is not larger than the preset blade idling pressure value, enabling the motor in the electric hair clipper to continue to operate, so that the operating power of the motor in the electric hair clipper is different from the operating power of the motor in the electric hair clipper in the idling process, further reducing the time of the motor in the whole operation process with the highest operating power, and finally achieving the purpose of prolonging the time of easily reaching the skin temperature of a user when the electric hair clipper is used;

2. Judging whether the excess value of the blade working pressure is consistent with a preset pressure excess reference value or not, when the excess value of the blade working pressure is consistent with the preset pressure excess reference value, acquiring excess reference adjustment information through pressure excess reference value analysis, taking the excess reference adjustment information as motor control excess adjustment information, and when the excess value of the blade working pressure is inconsistent with the preset pressure excess reference value, acquiring trimming object type information through blade working pressure excess value analysis, acquiring type influence adjustment information through trimming object type information analysis, and taking the type influence adjustment information as motor control excess adjustment information, so that the motor power changes along with different trimming objects, and further improving the accuracy of the acquired motor control excess adjustment information;

3. the blade material information is obtained, the material heat dissipation influence value is obtained through blade material information analysis, the motor control material adjustment information is obtained through material heat dissipation influence value analysis, and the motor control material adjustment information is sent to the motor in the electric clipper, so that the motor power is adjusted along with the different materials of the blades.

Drawings

Fig. 1 is a flowchart of a method of electric hair clipper control in an embodiment of the present application.

Fig. 2 is a flowchart of a method for analyzing and obtaining initial motor operation information corresponding to start information according to a corresponding relation between the start information and preset initial motor operation information in an embodiment of the present application.

Fig. 3 is a flowchart of a method for analyzing and obtaining motor control excess adjustment information corresponding to a blade working pressure excess value according to a corresponding relation between the blade working pressure excess value and preset motor control excess adjustment information in an embodiment of the present application.

Fig. 4 is a flow chart of a method of an embodiment of the present application following the transmission of motor control overage adjustment information to the motor in the electric clipper or following the continued operation of the motor in the electric clipper.

Fig. 5 is a flowchart of a method for analyzing and obtaining a material heat dissipation influence value corresponding to blade material information according to a corresponding relationship between the blade material information and a preset material heat dissipation influence value in an embodiment of the present application.

Fig. 6 is a flowchart of a method for analyzing and obtaining a material heat dissipation environment influence value corresponding to current environment information and blade material information according to a corresponding relation between the current environment information, the blade material information and a preset material heat dissipation environment influence value in an embodiment of the present application.

Fig. 7 is a flowchart of a method of an embodiment of the present application following the step of sending motor control texture adjustment information to a motor in an electric clipper.

Fig. 8 is a system flowchart of electric hair clipper control in an embodiment of the present application.

Reference numerals illustrate: 1. an acquisition module; 2. a memory; 3. a processor.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application will be further described in detail with reference to fig. 1 to 8 and the embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the present application.

The embodiment of the application discloses a control method of electric hair clippers.

Referring to fig. 1, a control method of an electric hair clipper includes:

step S100, acquiring starting information.

The starting information is information for controlling the electric clipper to start working, the starting information can be obtained by an operator to stir or press a physical switch preset on the electric clipper, and the starting information can also be obtained by the operator to press a touch screen preset on the electric clipper.

Step S200, according to the corresponding relation between the starting information and the preset motor operation initial information, analyzing and obtaining the motor operation initial information corresponding to the starting information, and sending the motor operation initial information to a motor in the electric clipper.

The motor operation initial information is information for controlling the motor on the electric clipper to start running, and is obtained by inquiring from a database storing the motor operation initial information.

And acquiring initial motor operation information through start information analysis, and sending the initial motor operation information to a motor in the electric clipper, so as to control the motor on the electric clipper to start running.

Step S300, obtaining the actual pressure value of the blade operation.

The actual blade working pressure value is obtained through a pressure sensor on a connecting frame which is preset on the electric hair cutter, when a motor on the electric hair cutter starts to operate, the connecting frame is driven to move by an eccentric head, the pressure generated by the eccentric head on the connecting frame is received, and the actual blade working pressure value can be analyzed and calculated by subtracting the pressure value detected by the pressure sensor when the motor starts to operate from the pressure value detected by the pressure sensor when the motor does not start to operate.

Step S400, determining whether the actual blade working pressure value is greater than a preset blade idle pressure value. If yes, go to step S500; if not, step S700 is performed.

The blade idle pressure value refers to a pressure value between an upper blade and a lower blade when a motor on the electric hair clipper starts to operate and the electric hair clipper does not trim a trimming object, and is obtained by inquiring from a database storing the blade idle pressure value.

By judging whether the actual blade working pressure value is larger than the preset blade idle pressure value, whether the pressure value between the upper blade and the lower blade when the electric clipper starts to work is larger than the pressure value between the upper blade and the lower blade when the electric clipper starts to operate and the electric clipper does not clip a clipping object is judged, and whether the electric clipper is in an idle state is judged.

Step S500, according to the blade working actual pressure value and the blade idle pressure value, analyzing and calculating the difference between the blade working actual pressure value and the blade idle pressure value and taking the difference as the blade working pressure excess value.

The excess blade working pressure value refers to the difference between the pressure value between the upper blade and the lower blade when the electric clipper starts working and the pressure value between the upper blade and the lower blade when the motor on the electric clipper starts to operate and the electric clipper does not clip the clipping object.

The difference between the blade working actual pressure value and the blade idle pressure value is analyzed and calculated through the blade working actual pressure value and the blade idle pressure value, and the difference between the blade working actual pressure value and the blade idle pressure value is used as the blade working pressure excess value, so that the follow-up use of the blade working pressure excess value is facilitated.

Step S600, according to the corresponding relation between the excess value of the blade working pressure and the preset excess motor control adjustment information, the excess motor control adjustment information corresponding to the excess value of the blade working pressure is analyzed and obtained, and the excess motor control adjustment information is sent to the motor in the electric clipper.

The motor control excess adjustment information refers to information for adjusting the running power of the motor when the motor on the electric clipper is not idling, and is obtained by inquiring from a database storing the motor control excess adjustment information.

When the actual blade working pressure value is larger than the preset blade idle pressure value, the pressure value between the upper blade and the lower blade when the electric clipper starts to work is larger than the pressure value between the upper blade and the lower blade when the electric clipper starts to operate and the electric clipper does not clip a clipping object, and further the electric clipper is in an idle state, so that the motor control excessive adjustment information is acquired through the analysis of the blade working pressure excessive value, and the motor control excessive adjustment information is sent to the motor in the electric clipper, so that the operating power of the motor in the electric clipper is adjusted, and the motor in the electric clipper can clip the clipping object.

And step S700, enabling the motor in the electric clipper to continue to work.

When the actual blade working pressure value is not greater than the preset blade idle pressure value, the pressure value between the upper blade and the lower blade when the electric clipper begins to work is not greater than the pressure value between the upper blade and the lower blade when the electric clipper begins to operate and the electric clipper does not clip a clipping object, and further the electric clipper is in an idle state, so that the electric clipper motor continues to work, the electric clipper motor continues to operate according to initial power, the time of the electric clipper motor operating at the highest working power in the whole working process is reduced, the movement frequency between the upper blade and the lower blade is changed, the temperature rising speed between the upper blade and the lower blade is slowed down, and finally the purpose of prolonging the time of the electric clipper reaching the temperature easy to scald to the skin of a user in use is achieved.

In step S200 shown in fig. 1, in order to further ensure the rationality of the motor operation initiation information, further individual analysis calculation of the motor operation initiation information is required, specifically, the steps shown in fig. 2 will be described in detail.

Referring to fig. 2, according to a correspondence between start information and preset motor operation initial information, analyzing and acquiring the motor operation initial information corresponding to the start information includes the following steps:

step S210, inquiring and acquiring preset motor model information according to the starting information.

The motor model information refers to the model information of a motor in the electric hair clipper, and the motor model information is inquired and obtained from a database storing the motor model information.

When the starting information is acquired, the motor model information of the electric clipper is inquired and acquired, so that the follow-up use of the motor model information is facilitated.

Step S220, according to the corresponding relation between the motor model information and the preset motor starting initial voltage value, the preset motor starting initial current value, the preset motor starting stable voltage value and the preset motor starting stable current value, analyzing and obtaining the motor starting initial voltage value, the motor starting initial current value, the motor starting stable voltage value and the motor starting stable current value corresponding to the motor model information.

The motor starting initial voltage value refers to a voltage value required by a motor in the electric clipper when the motor starts to operate, and the motor starting initial voltage value is obtained by inquiring a database storing the motor starting initial voltage value.

The motor start initial current value refers to a current value required when a motor in the electric clipper starts to operate, and is obtained by inquiring from a database storing the motor start initial current value.

The motor starting stable voltage value refers to a voltage value when a motor in the electric clipper is stable after running, and the motor starting stable voltage value is inquired from a database storing the motor starting stable voltage value.

The motor start-up stable current value refers to a current value when the motor in the electric clipper is stable after running, and is obtained by inquiring from a database storing the motor start-up stable current value.

The motor starting initial voltage value, the motor starting initial current value, the motor starting stable voltage value and the motor starting stable current value are obtained through motor model information analysis, so that the motor starting initial voltage value, the motor starting initial current value, the motor starting stable voltage value and the motor starting stable current value can be conveniently used subsequently.

Step S230, taking the motor starting initial voltage value, the motor starting initial current value, the motor starting stable voltage value and the motor starting stable current value as motor working initial information.

The motor starting initial voltage value, the motor starting initial current value, the motor starting stable voltage value and the motor starting stable current value are used as motor working initial information, so that the accuracy of the obtained motor working initial information is improved, and the motor in the electric clipper is conveniently controlled to run.

In step S600 shown in fig. 1, in order to further secure the rationality of the motor control overstock adjustment information, further individual analysis calculation of the motor control overstock adjustment information is required, specifically, the steps shown in fig. 3 are described in detail.

Referring to fig. 3, according to a correspondence between a blade working pressure excess value and preset motor control excess adjustment information, analyzing and acquiring the motor control excess adjustment information corresponding to the blade working pressure excess value includes the steps of:

in step S610, it is determined whether the excess blade working pressure value is consistent with a preset excess pressure reference value. If yes, go to step S620; if not, step S630 is performed.

The reference value of the excess pressure refers to a reference difference between a pressure value between the upper blade and the lower blade when the electric clipper starts to work and a pressure value between the upper blade and the lower blade when the electric clipper starts to operate and the electric clipper does not clip a clipping object, and in this embodiment, the reference value of the excess pressure refers to a difference between a pressure value between the upper blade and the lower blade when the electric clipper starts to clip human hair and a pressure value between the upper blade and the lower blade when the electric clipper idles. The pressure excess reference value is obtained by inquiring from a database storing the pressure excess reference value.

And judging whether the working pressure excess value of the blade is consistent with a preset pressure excess reference value, so as to judge whether the electric hair cutter is used for cutting human hair.

Step S620, according to the corresponding relation between the pressure excess reference value and the preset excess reference adjustment information, analyzing and obtaining excess reference adjustment information corresponding to the pressure excess reference value, and taking the excess reference adjustment information as motor control excess adjustment information.

The excess reference adjustment information is information for adjusting the operating power of the motor on the electric clipper under the pressure excess reference value, and is obtained by inquiring from a database storing the excess reference adjustment information.

When the working pressure excess value of the blade is consistent with the preset pressure excess reference value, the fact that the electric hair cutter is used for cutting hair of a person at the moment is indicated, the excess reference adjustment information is obtained through pressure excess reference value analysis, and the excess reference adjustment information is used as motor control excess adjustment information, so that accuracy of the obtained motor control excess adjustment information is improved, and finally the purpose of prolonging time for the electric hair cutter to reach the temperature easy to scald to skin of the user when the electric hair cutter is used is achieved.

Step S630, analyzing and obtaining trimming object type information corresponding to the excess value of the blade working pressure according to the corresponding relation between the excess value of the blade working pressure and the preset trimming object type information.

The trimming object type information refers to object type information of trimming by the electric hair clipper, and the trimming object type information is obtained by inquiring from a database storing the trimming object type information. The trimming object type information may be wool, the trimming object type information may be horsehair, the trimming object type information may be cat hair, the trimming object type information may be dog hair, or the like.

And obtaining the trimming object type information through the excess value analysis of the working pressure of the blade, so that the trimming object type information can be conveniently used later.

Step S640, analyzing and obtaining the category impact adjustment information corresponding to the trimming object category information according to the corresponding relation between the trimming object category information and the preset category impact adjustment information, and taking the category impact adjustment information as the motor control excess adjustment information.

The type influence adjustment information is information for adjusting the running power of a motor on the electric hair clipper according to the type of an object to be trimmed by the electric hair clipper, and is obtained by inquiring from a database storing the type influence adjustment information.

The type influence adjustment information is obtained through analysis of the type information of the trimming object, so that the obtained type influence adjustment information is changed along with the change of the type information of the trimming object, and the type influence adjustment information is used as motor control excess adjustment information, so that the accuracy of the obtained motor control excess adjustment information is improved, and finally, the purpose of prolonging the time for reaching the temperature which is easy to scald the skin of a user when the electric hair clipper is used is achieved.

After step S600 or after step S700 shown in fig. 1, in order to further ensure the rationality of the subsequent operation of the motor in the electric hair clipper, further separate analysis and calculation after the motor control overrating information is sent to the motor in the electric hair clipper or after the motor in the electric hair clipper is continued to operate is required, which will be described in detail with reference to the steps shown in fig. 4.

Referring to fig. 4, the steps after transmitting the motor control excess adjustment information to the motor in the electric hair clipper or after continuing the operation of the motor in the electric hair clipper include the steps of:

step S710, obtaining preset blade material information.

The blade material information refers to the material information of an upper blade and a lower blade in the electric hair clipper, and is obtained by inquiring a database storing the blade material information.

Step S720, analyzing and obtaining the material heat dissipation influence value corresponding to the blade material information according to the corresponding relation between the blade material information and the preset material heat dissipation influence value.

The material heat dissipation influence values refer to influence values of different materials on heat dissipation of the upper blade and the lower blade, and the material heat dissipation influence values are obtained by inquiring a database storing the material heat dissipation influence values.

The material heat dissipation influence value is obtained through blade material information analysis, so that the subsequent use of the material heat dissipation influence value is facilitated.

Step S730, according to the corresponding relation between the material heat dissipation influence value and the preset motor control material adjustment information, analyzing and obtaining the motor control material adjustment information corresponding to the material heat dissipation influence value, and sending the motor control material adjustment information to the motor in the electric clipper.

The motor control material adjustment information refers to information for adjusting the running power of a motor on the electric clipper according to different materials, and is obtained by inquiring a database storing the motor control material adjustment information.

The motor control material adjustment information is obtained through material heat dissipation influence value analysis, and is sent to the motor in the electric hair clipper, so that the running power of the motor on the electric hair clipper is adjusted according to different materials, and finally the aim of prolonging the time of the electric hair clipper reaching the temperature of the skin of a user when the electric hair clipper is used is achieved.

Further, according to the corresponding relation among the blade material information, the trimming object type information and the preset blade adaptation influence value, analyzing and obtaining the blade adaptation influence value corresponding to the blade material information and the trimming object type information; according to the corresponding relation between the material heat dissipation influence value, the blade adaptation influence value and the preset motor control material adjustment information, analyzing and obtaining motor control material adjustment information corresponding to the material heat dissipation influence value and the blade adaptation influence value, and sending the motor control material adjustment information to a motor in the electric clipper. The motor control material adjustment information is influenced by the influence value between the blade material and the trimming object, so that the accuracy of the acquired motor control material adjustment information is further improved, and the aim of prolonging the time of the electric hair clipper reaching the temperature of the skin of a user easily when the electric hair clipper is used is finally achieved.

In step S720 shown in fig. 4, in order to further secure the rationality of the material heat dissipation influence value, further separate analysis and calculation of the material heat dissipation influence value are required, and specifically, the steps shown in fig. 5 will be described in detail.

Referring to fig. 5, according to the correspondence between the blade material information and the preset material heat dissipation influence value, analyzing and obtaining the material heat dissipation influence value corresponding to the blade material information includes the following steps:

In step S721, according to the correspondence between the blade material information and the preset material heat dissipation reference value, the material heat dissipation reference value corresponding to the blade material information is obtained through analysis.

The material heat dissipation reference value refers to a reference influence value of different materials on heat dissipation of the upper blade and the lower blade, and is obtained by inquiring a database storing the material heat dissipation reference value.

The material heat dissipation reference value is obtained through blade material information analysis, so that the subsequent use of the material heat dissipation reference value is facilitated.

Further, defining the blade material information of the upper blade as upper blade material information, and the blade material information of the lower blade as lower blade material information, and judging whether the upper blade material information is consistent with the lower blade material information; if yes, taking any one of the upper blade material information and the lower blade material information as the blade material information, and analyzing and acquiring a material heat dissipation reference value corresponding to the blade material information according to the corresponding relation between the blade material information and the preset material heat dissipation reference value. If not, analyzing and acquiring an upper blade material heat dissipation reference value corresponding to the upper blade material information according to the corresponding relation between the upper blade material information and the preset upper blade material heat dissipation reference value; and analyzing and acquiring a lower blade material heat dissipation reference value corresponding to the lower blade material information according to the corresponding relation between the lower blade material information and a preset lower blade material heat dissipation reference value, and taking the upper blade material heat dissipation reference value and the lower blade material heat dissipation reference value as material heat dissipation reference values. And judging whether the material information of the upper blade is consistent with the material information of the lower blade, and acquiring the material heat dissipation reference value, so that the accuracy of the acquired material heat dissipation reference value is improved.

Step S722, acquire current environmental information.

The current environment information refers to environment information of a motor in the electric clipper in the using process, and the current environment information is acquired through various detection devices.

Step S723, analyzing and obtaining a material heat dissipation environment influence value corresponding to the current environment information and the blade material information according to the corresponding relation between the current environment information, the blade material information and the preset material heat dissipation environment influence value.

The material heat dissipation environment influence value refers to an influence value of the environment in the use process on heat dissipation of the upper blade and the lower blade, and is obtained by inquiring a database storing the material heat dissipation environment influence value.

The material heat dissipation environment influence value is obtained through analysis of the current environment information and the blade material information, so that the subsequent use of the material heat dissipation environment influence value is facilitated.

In step S724, according to the corresponding relationship between the material heat dissipation reference value, the material heat dissipation environmental impact value and the preset material heat dissipation impact value, the material heat dissipation impact value corresponding to the material heat dissipation reference value and the material heat dissipation environmental impact value is obtained.

The material heat dissipation influence value is obtained through analysis of the material heat dissipation reference value and the material heat dissipation environment influence value, so that the obtained material heat dissipation influence value changes along with the material of the upper blade and the lower blade and the environment where the upper blade and the lower blade are located, the accuracy of the obtained material heat dissipation influence value is improved, and the purpose of prolonging the time for the electric hair clipper to reach the temperature easy to scald the skin of a user when the electric hair clipper is used is finally achieved.

In step S723 shown in fig. 5, in order to further secure the rationality of the material heat dissipation environment influence value, further separate analysis and calculation of the material heat dissipation environment influence value are required, and specifically, the steps shown in fig. 6 will be described in detail.

Referring to fig. 6, according to the correspondence between the current environment information, the blade material information and the preset material heat dissipation environment influence value, analyzing and obtaining the material heat dissipation environment influence value corresponding to the current environment information and the blade material information includes the following steps:

in step S7231, the current environment information includes current environment temperature information and current environment humidity information.

The current environmental temperature information refers to the environmental temperature information of a motor in the electric hair clipper in the use process, and the current environmental temperature information is detected and obtained through a temperature sensor preset in the electric hair clipper.

The current environmental humidity information refers to the environmental humidity information of a motor in the electric hair clipper in the use process, and the current environmental humidity information is detected and obtained through a humidity sensor preset in the electric hair clipper.

Step S7232, analyzing and obtaining the heat dissipation temperature influence value corresponding to the current environmental temperature information and the blade material information according to the corresponding relation between the current environmental temperature information, the blade material information and the preset heat dissipation temperature influence value.

The heat dissipation temperature influence value refers to an influence value of the environment temperature on heat dissipation of the upper blade and the lower blade in the use process, and the heat dissipation temperature influence value is obtained by inquiring a database storing the heat dissipation temperature influence value.

The heat dissipation temperature influence value is obtained through analysis of the current environment temperature information and the blade material information, so that the follow-up use of the heat dissipation temperature influence value is facilitated.

Step S7233, analyzing and obtaining the heat dissipation humidity influence value corresponding to the current environmental humidity information and the blade material information according to the corresponding relation between the current environmental humidity information, the blade material information and the preset heat dissipation humidity influence value.

The heat dissipation humidity influence value refers to an influence value of the environment humidity in the use process on heat dissipation of the upper blade and the lower blade, and the heat dissipation humidity influence value is obtained by inquiring a database storing the heat dissipation humidity influence value.

The heat dissipation humidity influence value is obtained through analysis of the current environment humidity information and the blade material information, so that the follow-up use of the heat dissipation humidity influence value is facilitated.

Step S7234, analyzing and obtaining the material heat dissipation environment influence value corresponding to the heat dissipation temperature influence value and the heat dissipation humidity influence value according to the corresponding relation between the heat dissipation temperature influence value, the heat dissipation humidity influence value and the preset material heat dissipation environment influence value.

The material heat dissipation environment influence value is obtained through analysis of the heat dissipation temperature influence value and the heat dissipation humidity influence value, so that the obtained material heat dissipation environment influence value is changed along with the change of the ambient temperature and the ambient humidity, the accuracy of the obtained material heat dissipation environment influence value is improved, and the purpose of prolonging the time that the electric hair clipper reaches the temperature easy to scald to the skin of a user when in use is finally achieved.

After step S730 shown in fig. 4, in order to further ensure the rationality of the subsequent operation of the motor in the electric hair clipper, further separate analysis and calculation after the motor control material adjustment information is sent to the motor in the electric hair clipper is required, specifically, the detailed description will be given by the steps shown in fig. 7.

Referring to fig. 7, the steps after transmitting motor control material adjustment information to the motor in the electric hair clipper include the steps of:

step S731, an actual temperature value of the blade is obtained.

The blade actual temperature value refers to the actual temperature value of an upper blade and a lower blade in the electric hair clipper, and is obtained by detecting temperature sensors for detecting the upper blade and the lower blade on the electric hair clipper in a preset manner.

In step S732, it is determined whether the actual temperature value of the blade is greater than a preset reference temperature value of the blade. If yes, go to step S733; if not, step S734 is performed.

The blade reference temperature value refers to the lowest temperature value of the upper blade and the lower blade in the electric hair clipper, which is easy to scald the skin of a user. The blade reference temperature value is obtained by querying a database storing the blade reference temperature value.

Whether the actual temperature value of the blade is larger than a preset blade reference temperature value or not is judged, so that whether the actual temperature values of the upper blade and the lower blade in the electric hair clipper are larger than the lowest temperature value of the upper blade and the lower blade in the electric hair clipper, and the user skin is easy to scald is judged.

Step S733, a preset overheat alarm message is sent to a terminal held by an operator, and a preset overheat stop message is sent to a motor in the electric clipper.

The overheat alarm information is information for alarming an operator after the actual temperature values of the upper blade and the lower blade in the electric hair clipper are too high, and is obtained from a database storing the overheat alarm information.

The overheat stopping information refers to information for controlling the electric clipper to stop running after the actual temperature values of the upper blade and the lower blade in the electric clipper are too high, and the overheat stopping information is obtained by inquiring from a database storing the overheat stopping information.

When the actual temperature value of the blade is larger than the preset reference temperature value of the blade, the fact that the actual temperature value of the upper blade and the lower blade in the electric hair cutter is larger than the lowest temperature value of the upper blade and the lower blade in the electric hair cutter, which are easy to scald the skin of a user, is indicated, so that preset overheat alarm information is sent to a terminal held by an operator, preset overheat stop information is sent to a motor in the electric hair cutter, the operator can know the actual temperature values of the upper blade and the lower blade in the electric hair cutter conveniently, the electric hair cutter is controlled to stop running, and the probability that the electric hair cutter is easy to scald the skin of the user when in use is reduced.

Step S734, the jump proceeds to step S700.

When the actual temperature value of the blade is not greater than the preset reference temperature value of the blade, it is indicated that the actual temperature values of the upper blade and the lower blade in the electric hair clipper are not greater than the lowest temperature value of the upper blade and the lower blade in the electric hair clipper, which are easy to scald the skin of the user, so that the step S700 is performed in a jumping manner, so that the motor in the electric hair clipper continues to work, and the temperature of the electric hair clipper, which is easy to scald the skin of the user, is not always reached by an operator in the process of using the electric hair clipper, so that the use experience of the user is improved.

Referring to fig. 8, based on the same inventive concept, an embodiment of the present invention provides an electric hair clipper control system, including:

the acquisition module 1 is used for acquiring starting information, a blade working actual pressure value, current environment information and a blade actual temperature value;

a memory 2 for storing a program of a control method of electric hair clipper as set forth in any one of fig. 1 to 7;

the processor 3, the program in the memory can be loaded by the processor for execution and implements a method of controlling electric hair clipper as in any one of fig. 1 to 7.

Based on the same inventive concept, an embodiment of the present invention provides an electric hair clipper control apparatus, including a memory and a processor, on which a computer program capable of being loaded by the processor and executing an electric hair clipper control method as in any one of fig. 1 to 7 is stored.

It will be apparent to those skilled in the art that, for convenience and brevity of description, only the above-described division of the functional modules is illustrated, and in practical application, the above-described functional allocation may be performed by different functional modules according to needs, i.e. the internal structure of the apparatus is divided into different functional modules to perform all or part of the functions described above. The specific working processes of the above-described systems, devices and units may refer to the corresponding processes in the foregoing method embodiments, which are not described herein.

An embodiment of the present invention provides a computer storage medium storing a computer program capable of being loaded by a processor and executing a method of controlling electric hair clipper as in any one of fig. 1 to 7.

The computer storage medium includes, for example: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a random access Memory (Random Access Memory, RAM), a magnetic disk, or an optical disk, or other various media capable of storing program codes.

The foregoing description of the preferred embodiments of the present application is not intended to limit the scope of the application, in which any feature disclosed in this specification (including abstract and drawings) may be replaced by alternative features serving the same, equivalent or similar purpose, unless expressly stated otherwise. That is, each feature is one example only of a generic series of equivalent or similar features, unless expressly stated otherwise.

Claims (8)

1. An electric hair clipper control method, characterized by comprising:

acquiring starting information;

according to the corresponding relation between the starting information and the preset motor work initial information, analyzing and obtaining the motor work initial information corresponding to the starting information, and sending the motor work initial information to a motor in the electric clipper;

Acquiring a blade working actual pressure value;

judging whether the actual working pressure value of the blade is larger than a preset idle blade pressure value or not;

if so, according to the blade working actual pressure value and the blade idle pressure value, analyzing and calculating a difference value between the blade working actual pressure value and the blade idle pressure value and taking the difference value as an excess value of the blade working pressure;

according to the corresponding relation between the excess value of the working pressure of the blade and the preset excess adjustment information of the motor control, analyzing and obtaining the excess adjustment information of the motor control corresponding to the excess value of the working pressure of the blade, and sending the excess adjustment information of the motor control to a motor in the electric hair clipper;

if not, enabling the motor in the electric clipper to continue to work;

the method also comprises the steps of sending the motor control excess adjustment information to the motor in the electric clipper or enabling the motor in the electric clipper to work continuously, and the method is specifically as follows:

acquiring preset blade material information;

according to the corresponding relation between the blade material information and the preset material heat dissipation influence value, analyzing and obtaining the material heat dissipation influence value corresponding to the blade material information;

according to the corresponding relation between the material heat dissipation influence value and the preset motor control material adjustment information, analyzing and obtaining motor control material adjustment information corresponding to the material heat dissipation influence value, and sending the motor control material adjustment information to a motor in the electric clipper;

According to the corresponding relation between the blade material information and the preset material heat dissipation influence value, analyzing and acquiring the material heat dissipation influence value corresponding to the blade material information comprises the following steps:

according to the corresponding relation between the blade material information and a preset material heat dissipation reference value, analyzing and obtaining a material heat dissipation reference value corresponding to the blade material information;

acquiring current environmental information;

according to the corresponding relation between the current environment information, the blade material information and the preset material heat dissipation environment influence value, analyzing and obtaining the material heat dissipation environment influence value corresponding to the current environment information and the blade material information;

analyzing and obtaining a material heat dissipation influence value corresponding to the material heat dissipation reference value and the material heat dissipation environment influence value according to the corresponding relation between the material heat dissipation reference value, the material heat dissipation environment influence value and the preset material heat dissipation influence value;

defining the blade material information of the upper blade as upper blade material information, and judging whether the upper blade material information is consistent with the lower blade material information or not, wherein the blade material information of the lower blade is lower blade material information; if yes, taking any one of the upper blade material information and the lower blade material information as the blade material information, and analyzing and acquiring a material heat dissipation reference value corresponding to the blade material information according to the corresponding relation between the blade material information and a preset material heat dissipation reference value; if not, analyzing and acquiring an upper blade material heat dissipation reference value corresponding to the upper blade material information according to the corresponding relation between the upper blade material information and the preset upper blade material heat dissipation reference value; and analyzing and acquiring a lower blade material heat dissipation reference value corresponding to the lower blade material information according to the corresponding relation between the lower blade material information and a preset lower blade material heat dissipation reference value, and taking the upper blade material heat dissipation reference value and the lower blade material heat dissipation reference value as material heat dissipation reference values.

2. The method according to claim 1, wherein analyzing and acquiring motor operation initiation information corresponding to the start information according to a correspondence between the start information and preset motor operation initiation information comprises:

inquiring and acquiring preset motor model information according to the starting information;

according to the corresponding relation between the motor model information and a preset motor starting initial voltage value, a preset motor starting initial current value, a preset motor starting stable voltage value and a preset motor starting stable current value, analyzing and obtaining a motor starting initial voltage value, a motor starting initial current value, a motor starting stable voltage value and a motor starting stable current value which correspond to the motor model information;

and taking the motor starting initial voltage value, the motor starting initial current value, the motor starting stable voltage value and the motor starting stable current value as motor working initial information.

3. The method of claim 1, wherein analyzing the motor control overage adjustment information corresponding to the blade operating pressure overage value according to the correspondence between the blade operating pressure overage value and the preset motor control overage adjustment information comprises:

Judging whether the excess value of the working pressure of the blade is consistent with a preset excess pressure reference value or not;

if yes, according to the corresponding relation between the pressure excess reference value and preset excess reference adjustment information, analyzing and obtaining excess reference adjustment information corresponding to the pressure excess reference value, and taking the excess reference adjustment information as motor control excess adjustment information;

if not, analyzing and acquiring trimming object type information corresponding to the excess value of the working pressure of the blade according to the corresponding relation between the excess value of the working pressure of the blade and the preset trimming object type information;

according to the corresponding relation between the trimming object type information and the preset type influence adjustment information, analyzing and acquiring the type influence adjustment information corresponding to the trimming object type information, and taking the type influence adjustment information as motor control excess adjustment information.

4. The method according to claim 1, wherein analyzing and acquiring the material heat dissipation environment influence value corresponding to the current environment information and the material information of the blade according to the correspondence between the current environment information, the material information of the blade and the preset material heat dissipation environment influence value comprises:

the current environment information comprises current environment temperature information and current environment humidity information;

According to the corresponding relation between the current environmental temperature information, the blade material information and the preset heat dissipation temperature influence value, analyzing and obtaining the heat dissipation temperature influence value corresponding to the current environmental temperature information and the blade material information;

according to the corresponding relation between the current environmental humidity information, the blade material information and the preset heat dissipation humidity influence value, analyzing and obtaining the heat dissipation humidity influence value corresponding to the current environmental humidity information and the blade material information;

and analyzing and obtaining the material heat radiation environment influence value corresponding to the heat radiation temperature influence value and the heat radiation humidity influence value according to the corresponding relation between the heat radiation temperature influence value, the heat radiation humidity influence value and the preset material heat radiation environment influence value.

5. The method of claim 1, further comprising the step of sending motor control material adjustment information to a motor in the electric hair clipper, comprising:

acquiring an actual temperature value of the blade;

judging whether the actual temperature value of the blade is larger than a preset reference temperature value of the blade;

if yes, sending preset overheat alarm information to a terminal held by an operator, and sending preset overheat stop information to a motor in the electric clipper;

If not, the motor in the electric clipper is enabled to continue to work.

6. An electric hair clipper control system, comprising:

the acquisition module (1) is used for acquiring starting information, a blade working actual pressure value, current environment information and a blade actual temperature value;

a memory (2) for storing a program of an electric hair clipper control method as set forth in any one of claims 1 to 5;

a processor (3) in which a program is loadable and executable by the processor and implements a method of controlling electric hair clipper according to any one of claims 1 to 5.

7. An electric hair clipper control device comprising a memory and a processor, the memory having stored thereon a computer program capable of being loaded by the processor and executing an electric hair clipper control method as set forth in any one of claims 1 to 5.

8. A computer storage medium storing a computer program capable of being loaded by a processor and executing a method of controlling electric hair clipper according to any one of claims 1 to 5.

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