CN117065206B - Micro-current output control method, beauty instrument, beauty device and storage medium - Google Patents

Abstract

The application provides a micro-current output control method, a beauty instrument, a beauty device and a storage medium. The micro-current output control method is applied to a beauty instrument, the beauty instrument comprises an electrotherapy component, the electrotherapy component is used for outputting micro-current to skin, the beauty instrument has at least two working modes, and the micro-current output control method comprises the following steps: determining the working mode of the beauty instrument; determining a target output parameter corresponding to the working mode according to the working mode of the beauty instrument, wherein the target output parameter comprises at least one of target frequency, target amplitude and target waveform; and controlling the electrotherapy component to output a microcurrent at the target output parameter. The micro-current output control method provided by the application can output the micro-current matched with the working mode of the beauty instrument, so that the beauty instrument can perform accurate electrotherapy skin care under different working modes and beauty requirements.

Description

Micro-current output control method, beauty instrument, beauty device and storage medium

Technical Field

The application relates to the technical field of beauty equipment, in particular to a micro-current output control method, a beauty instrument, a beauty device and a storage medium.

Background

Microcurrent can improve tissue and cell viability, and repair damaged cells and tissues. At present, microcurrent applied to the fields of medical treatment and cosmetology mostly adopts bioelectric current compatible with simulated human cells, and the bioelectric current acts on skin layers and muscle layers of the whole face of a human body with specific frequency and waveform, and the aged facial muscles are contracted and relaxed to restore the original elasticity and functions by inducing the aged cells of the muscle layers to enter a depolarization state.

However, the beauty instrument outputs micro-current with specific frequency and waveform, which cannot meet the requirements of precise skin care.

Disclosure of Invention

In order to solve the technical problems, the application provides a micro-current output control method, a beauty instrument, a beauty device and a storage medium, which can output micro-current matched with the working mode of the beauty instrument, so that the beauty instrument can perform accurate electrotherapy skin care under different working modes and beauty requirements.

The first aspect of the application provides a micro-current output control method, which is applied to a beauty instrument, wherein the beauty instrument comprises an electrotherapy component, the electrotherapy component is used for outputting micro-current to skin, and the beauty instrument has at least two working modes. The micro-current output control method comprises the following steps: determining the working mode of the beauty instrument; determining a target output parameter corresponding to the working mode according to the working mode of the beauty instrument, wherein the target output parameter comprises at least one of target frequency, target amplitude and target waveform; and controlling the electrotherapy component to output a microcurrent at the target output parameter.

The second aspect of the present application provides a beauty instrument having at least two operation modes, the beauty instrument including an electrotherapy component for outputting micro-current to skin, and a control module for determining an operation mode of the beauty instrument and determining a target output parameter corresponding to the operation mode according to the operation mode of the beauty instrument, the target output parameter including at least one of a target frequency, a target amplitude and a target waveform, and controlling the electrotherapy component to output micro-current with the target output parameter.

A third aspect of the present application provides a cosmetic device comprising a reservoir assembly and a cosmetic apparatus as described above, the cosmetic apparatus being adapted to be removably mounted to the reservoir assembly and to be used in cooperation with the reservoir assembly when the reservoir assembly is mounted, the reservoir assembly having a cosmetic substance stored therein, the reservoir assembly being adapted to contact the skin and release the cosmetic substance to the skin surface when the cosmetic apparatus is applied to the skin when the reservoir assembly is mounted to the cosmetic apparatus.

A fourth aspect of the present application provides a computer readable storage medium having a computer program stored therein, the computer program being configured to be executed after being called by a processor, to implement the foregoing micro-current output control method.

According to the microcurrent output control method, the beauty instrument, the beauty device and the storage medium, the working mode of the beauty instrument is determined, and the electrotherapy component of the beauty instrument is controlled according to the working mode to output microcurrent according to the corresponding target output parameters, so that the electrotherapy component can output microcurrent matched with the working mode, and the beauty instrument can perform accurate electrotherapy skin care under different working modes and beauty requirements.

Drawings

In order to more clearly illustrate the technical solutions of the present application, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present application, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a flowchart of a micro-current output control method according to an embodiment of the application.

Fig. 2 is a schematic diagram of a partially exploded structure of a cosmetic apparatus according to an embodiment of the present application.

Fig. 3 is a schematic diagram of a sinusoidal waveform micro-current according to an embodiment of the present application.

Fig. 4 is a schematic diagram of a micro-current of a triangular waveform according to an embodiment of the present application.

Fig. 5 is a schematic diagram of micro-current of square waveform according to an embodiment of the application.

Fig. 6 is a sub-flowchart of step S20 in fig. 1 according to an embodiment of the present application.

Fig. 7 is a schematic structural diagram of a liquid storage assembly according to an embodiment of the application.

Fig. 8 is a schematic structural diagram of a liquid storage assembly according to an embodiment of the present application.

Fig. 9 is a sub-flowchart of step S10 in fig. 1 according to an embodiment of the present application.

Fig. 10 is an exploded view of the reservoir assembly of fig. 7.

Fig. 11 is a sub-flowchart of step S10 in fig. 1 according to another embodiment of the present application.

Fig. 12 is a sub-flowchart of step S10 in fig. 1 according to still another embodiment of the present application.

Fig. 13 is a sub-flowchart of step S30 in fig. 1 according to an embodiment of the present application.

Fig. 14 is a block diagram of a beauty device according to an embodiment of the present application.

Reference numerals illustrate:

100-a beauty treatment instrument; 10-electrotherapy assembly; 200-a liquid storage component; 11-electrodes; 20-a control module; 210-a reservoir; 220-connecting part; 30-mounting end; 40-a detection module; 31-ocular region of action; 32-cheek region of action; 10 a-a first electrotherapy component; 10 b-a second electrotherapy component; 11 a-a first electrode; 11 b-a second electrode; 300-cosmetic device.

Detailed Description

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without any inventive effort, are intended to be within the scope of the application.

In the description of the present application, the terms "first," "second," "third," "fourth," "fifth," "sixth," and the like are used for distinguishing between different objects and not for describing a particular sequence, and furthermore, the terms "upper," "inner," "outer," and the like indicate an orientation or a positional relationship based on that shown in the drawings, merely for convenience of description and to simplify the description, and do not indicate or imply that the apparatus or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the application.

In the description of the present application, unless explicitly stated and limited otherwise, the term "coupled" is to be interpreted broadly, as for example, whether fixedly coupled, detachably coupled, or integrally coupled; can be directly connected, can also be indirectly connected through an intermediate medium, and can also be the communication between the two elements; may be a communication connection; may be an electrical connection. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art according to the specific circumstances.

Referring to fig. 1 and fig. 2, fig. 1 is a flowchart of a micro-current output control method according to an embodiment of the application, and fig. 2 is a partially exploded structure schematic diagram of a beauty treatment instrument 100 according to an embodiment of the application. The micro-current output control method is applied to the beauty instrument 100, the beauty instrument 100 comprises an electrotherapy assembly 10, the electrotherapy assembly 10 is used for outputting micro-current to skin, and the beauty instrument 100 has at least two working modes. The micro-current output control method comprises the following steps:

s10: the operating mode of the cosmetic device 100 is determined.

S20: a target output parameter corresponding to the operation mode is determined according to the operation mode of the beauty instrument 100, where the target output parameter includes at least one of a target frequency, a target amplitude, and a target waveform.

S30: the electrotherapy assembly 10 is controlled to output microcurrents at the target output parameters.

According to the microcurrent output control method provided by the embodiment of the application, the microcurrent is output by determining the working mode of the beauty instrument 100 and controlling the electrotherapy assembly 10 according to the working mode to output the microcurrent according to the corresponding target output parameters, so that the electrotherapy assembly 10 can output the microcurrent matched with the working mode, and the beauty instrument 100 can perform accurate electrotherapy skin care under different working modes and beauty requirements.

As shown in fig. 2, the electrotherapy apparatus 10 includes at least one electrode 11, and the beauty apparatus 100 may include a control module 20, an energy supply module, and an output switch (not shown), wherein the output switch is connected between an output end of the energy supply module and the electrode, and the energy supply module may be a low-frequency ac power supply, or may be an inverter for converting dc of a battery into ac, and only the output ac frequency is low. The control module 20 is connected to the output switch, and is configured to control and adjust a duty cycle of the output switch, and adjust an EMS micro-current output by the electrotherapy assembly 10. The beauty treatment instrument 100 can adjust the waveform, frequency and amplitude of the EMS micro-current outputted from the electrotherapy assembly 10.

Referring to fig. 3 to 5, fig. 3 is a schematic diagram of a micro-current of a sinusoidal waveform according to an embodiment of the present application, fig. 4 is a schematic diagram of a micro-current of a triangular waveform according to an embodiment of the present application, and fig. 5 is a schematic diagram of a micro-current of a square waveform according to an embodiment of the present application. In some embodiments, the target waveform comprises at least one of a sine wave waveform, a triangle wave waveform, and a square wave waveform. Fig. 3 shows a cycle T1 and an amplitude Im1 of a micro-current of a sine wave waveform, the frequency F1 of the micro-current of the sine wave waveform shown in fig. 3 is 1/T1, fig. 4 shows a cycle T2 and an amplitude Im2 of the micro-current of a triangular wave waveform, the frequency F2 of the micro-current of the triangular wave waveform shown in fig. 4 is 1/T2, fig. 5 shows a cycle T3 and an amplitude Im3 of the micro-current of a square wave waveform, and the frequency F3 of the micro-current of the square wave waveform shown in fig. 5 is 1/T3. In order to facilitate understanding of the micro-currents of the sine wave waveform, the micro-currents of the triangle wave waveform and the micro-currents of the square wave waveform in the embodiments of the present application, in other embodiments, the micro-currents may be the micro-currents of other sine wave waveforms, the micro-currents of the triangle wave waveform and the micro-currents of the square wave waveform.

In some embodiments, the at least two modes of operation include at least two assembly modes, including a media mode and a non-media mode. The target output parameter includes at least one of a target frequency and a target amplitude.

Referring to fig. 6, a sub-flowchart of step S20 in fig. 1 is provided according to an embodiment of the application. As shown in fig. 6, the determining, according to the operation mode of the beauty instrument 100, the target output parameter corresponding to the operation mode includes:

s21: when the operation mode of the cosmetic instrument 100 includes a medium mode, the target frequency is determined to be a first preset frequency and/or the target amplitude is determined to be a first preset amplitude.

S20: when the operation mode of the beauty apparatus 100 includes a non-medium mode, the target frequency is determined to be a second preset frequency and/or the target amplitude is determined to be a second preset amplitude, the second preset frequency is smaller than the first preset frequency, and the second preset amplitude is smaller than the first preset amplitude.

The first preset frequency, the second preset frequency, the first preset amplitude and the second preset amplitude can be set according to actual requirements.

Wherein, when the operation mode of the beauty treatment instrument 100 includes a medium mode, the control module 20 may determine that the target frequency is a first preset frequency and/or the target amplitude is a first preset amplitude; when the operation mode of the cosmetic instrument 100 includes a non-medium mode, the target frequency is determined to be a second preset frequency and/or the target amplitude is determined to be a second preset amplitude.

In some embodiments, the target output parameter includes the target waveform, the target waveform includes a square waveform, and at least one of a triangular waveform and a sinusoidal waveform, and a duty ratio of the square waveform in the target waveform corresponding to the medium mode is greater than a duty ratio of the square waveform in the target waveform corresponding to the non-medium mode.

When the beauty apparatus 100 is in different assembly modes, the electrotherapy assembly 10 is controlled to output micro-currents according to different output parameters, so that micro-currents matched with different assembly modes can be output, and accurate electrotherapy skin care can be performed according to different beauty requirements in different assembly modes.

In other embodiments, the target waveform corresponding to the medium mode may include at least one of a square waveform, a triangular waveform, and a sinusoidal waveform, and the target waveform corresponding to the non-medium mode may include at least one of a square waveform, a triangular waveform, and a sinusoidal waveform.

Referring to fig. 7, a schematic structural diagram of a liquid storage assembly 200 according to an embodiment of the application is shown, and fig. 8 is a schematic structural diagram of the liquid storage assembly 200 according to an embodiment of the application mounted on a beauty apparatus 100. In some embodiments, the cosmetic device 100 is configured to be removably mounted to the reservoir assembly 200 and configured to cooperate with the reservoir assembly 200 when the reservoir assembly 200 is mounted. The reservoir assembly 200 stores therein a cosmetic substance, and when the reservoir assembly 200 is mounted to the cosmetic device 100 (as shown in fig. 8), the reservoir assembly 200 is used to contact the skin and release the cosmetic substance to the skin surface when the cosmetic device 100 acts on the skin, and the energy output from the electrotherapy assembly 10 is conducted to the skin through the cosmetic substance stored in the reservoir assembly 200.

When the beauty instrument 100 mounted with the liquid storage assembly 200 acts on the skin, the electrode 11 contacts with the beauty substance in the liquid storage assembly 200 to output micro-current to the skin through the beauty substance. When the beauty apparatus 100, to which the reservoir assembly 200 is not mounted, acts on the skin, the electrode 11 is in direct contact with the skin or in contact with the skin coated with the beauty substance and the mask applied thereto, so as to output micro-current to the skin.

Referring to fig. 9, a sub-flowchart of step S10 in fig. 1 is provided according to an embodiment of the application. In some embodiments, the determining the operating mode of the cosmetic device 100 includes:

s11: it is detected whether the beauty treatment instrument 100 is mounted with the liquid storage assembly 200.

S12: upon detecting that the beauty treatment instrument 100 is mounted with the liquid storage assembly 200, it is determined that an assembly mode included in an operation mode of the beauty treatment instrument 100 is a medium mode.

S13: upon detecting that the beauty treatment instrument 100 is not mounted with the liquid storage assembly 200, it is determined that the operation mode of the beauty treatment instrument 100 includes an assembly mode as a non-medium mode.

Wherein it can be rapidly determined whether the beauty treatment instrument 100 is in the medium mode or the non-medium mode by detecting whether the beauty treatment instrument 100 is mounted with the liquid storage assembly 200 to determine the assembly mode of the beauty treatment instrument 100.

When the liquid storage assembly 200 is mounted on the beauty instrument 100 and the beauty instrument 100 acts on the skin, the liquid storage assembly 200 contacts the skin and releases the beauty substance to the skin surface, and the beauty substance has conductivity and can conduct the energy output by the beauty instrument 100 to the skin so as to perform beauty repair on the skin. In the process of outputting energy to the skin by the beauty instrument 100, the beauty material can moisten and lubricate the skin to play a role of buffering, so as to avoid the skin from being damaged. In addition, the cosmetic material can be used for caring skin, and the combination of the cosmetic device 100 and the liquid storage assembly 200 can promote the absorption of the cosmetic material by the skin, so as to improve the cosmetic effect of the cosmetic device 100.

In some embodiments, the cosmetic substance may include at least one of toner, lotion, essence, emulsion, face cream, eye cream, gel, lipstick, lip cream, skin milk, and moisturizing milk, and the cosmetic substance may also be other types of substances having cosmetic skin care effects.

Wherein, when the control module 20 detects that the beauty instrument 100 is installed with the liquid storage assembly 200, it can determine that the assembly mode included in the operation mode of the beauty instrument 100 is a medium mode; upon detecting that the beauty treatment instrument 100 is not mounted with the liquid storage assembly 200, it is determined that the operation mode of the beauty treatment instrument 100 includes an assembly mode as a non-medium mode.

When the beauty apparatus 100 is mounted with the liquid storage assembly 200, the energy output by the electrotherapy assembly 10 may be conducted to the skin through the liquid storage assembly 200, and the energy conduction path may be longer than that of the beauty apparatus 100 without the liquid storage assembly 200, so that the energy loss may be greater in the conduction process.

In some embodiments, the first preset frequency corresponding to the medium mode is set to be greater than the second preset frequency corresponding to the non-medium mode and/or the first preset amplitude corresponding to the medium mode is set to be greater than the second preset amplitude corresponding to the non-medium mode, that is, the target frequency corresponding to the beauty treatment instrument 100 is greater and/or the target amplitude corresponding to the beauty treatment instrument 100 is greater when the liquid storage assembly 200 is installed, the target frequency corresponding to the liquid storage assembly 200 is smaller and/or the target amplitude corresponding to the liquid storage assembly is smaller when the liquid storage assembly 200 is not installed, so that the energy of the micro-current output by the electro-therapeutic assembly 10 meets the requirement of the skin area on the energy, and the poor beauty treatment effect caused by the smaller output energy can be avoided, and the skin can be prevented from being burnt further when the electro-therapeutic assembly 10 is not installed on the beauty treatment instrument 100.

Compared with the micro-currents of the sine wave waveform and the triangular wave waveform, the micro-currents of the square wave waveform have a process with more severe amplitude variation, and the amplitude variation rate of the micro-currents is larger in the process. In some embodiments, the ratio of square waveforms in the target waveforms corresponding to the medium mode is set to be larger than that of square waveforms in the target waveforms corresponding to the non-medium mode, that is, the square waveforms occupy a larger area when the liquid storage assembly 200 is installed, and the square waveforms occupy a smaller area when the liquid storage assembly 200 is not installed, so that when the liquid storage assembly 200 is installed in the beauty treatment instrument 100, the micro-current output by the electric treatment assembly 10 rises to a corresponding amplitude at a higher speed, and further when the energy output by the electric treatment assembly 10 is conducted to the skin through the liquid storage assembly 200, the electric treatment energy conducted to the skin can be quickly increased to meet the beauty treatment requirement of the skin, and when the liquid storage assembly 200 is not installed in the beauty treatment instrument 100, the amplitude of the micro-current output by the electric treatment assembly 10 can be prevented from rising too quickly, and further the electric treatment energy conducted to the skin can be gently increased, so that the user can feel gentle in body feeling and burning when the user is beautified, and the user does not feel stinging and burning.

Referring to fig. 7 and 10, fig. 10 is an exploded view of the liquid storage assembly 200 shown in fig. 7. In some embodiments, as shown in fig. 7 and 10, the liquid storage assembly 200 includes a liquid storage portion 210 and a connection portion 220 fixedly connected to the liquid storage portion 210, wherein the liquid storage portion 210 stores the cosmetic substance, and the connection portion 220 is configured to be detachably connected to the mounting end 30 of the cosmetic apparatus 100.

The liquid storage portion 210 may be fixedly connected to the connection portion 220 by an adhesive manner, and in other embodiments, may be fixedly connected to the connection portion 220 by other connection manners, such as a snap fit, a screw fit, etc.

Wherein, when the beauty apparatus 100 acts on the skin, the end of the liquid storage portion 210 away from the beauty apparatus 100 contacts the skin, and the beauty apparatus 100 can be pressed, so that the liquid storage portion 210 is pressed to release the beauty substance to the skin surface. The material of the liquid storage portion 210 may include at least one of sponge, foam, non-woven fabric, silk, pure cotton fiber, tencel, long carbon, biological fiber and viscose fiber.

In some embodiments, the reservoir assembly 200 may be a facial mask that may be mounted to the mounting end 30 of the cosmetic device 100.

In some embodiments, the reservoir assembly 200 is provided with an identification mark and/or the reservoir assembly 200 has a magnetic piece for adsorptive securing the reservoir assembly 200 to the cosmetic device 100.

In some embodiments, the detecting whether the cosmetic device 100 is mounted with the reservoir assembly 200 comprises: detecting the identification mark and/or the magnetic field parameter value of the magnetic attraction piece to output corresponding detection signals, wherein the detection signals comprise the identification mark and/or the magnetic field parameter value of the magnetic attraction piece.

When the control module 20 receives the detection signal, it determines that the beauty instrument 100 is installed with the liquid storage assembly 200, and further determines that an assembly mode included in a working mode of the beauty instrument 100 is a medium mode; when the control module 20 does not receive the detection signal, it determines that the liquid storage assembly 200 is not mounted on the beauty apparatus 100, and further determines that an assembly mode included in the operation mode of the beauty apparatus 100 is a non-medium mode.

In some embodiments, the identification mark comprises at least one of a color label, a pattern label, a text label, a number label, an information code, and an electronic label. In some embodiments, the beauty treatment instrument 100 includes a detection module 40, the detection module 40 may detect the identification mark and/or the magnetic field parameter value of the magnetic attraction member to output the detection signal, and the detection module 40 may include at least one of a color identification sensor, an image sensor, a magnetic sensor, a code reader, and an electronic tag reader.

In some embodiments, as previously described, the cosmetic device 100 is configured to be removably mounted to the reservoir assembly 200 and configured to cooperate with the reservoir assembly 200 when the reservoir assembly 200 is mounted, the reservoir assembly 200 having a cosmetic substance stored therein, the reservoir assembly 200 being configured to contact the skin and release the cosmetic substance to the skin surface when the cosmetic device 100 is applied to the skin, the energy output by the electrotherapy assembly 10 being conducted to the skin through the cosmetic substance stored in the reservoir assembly 200.

The types of the liquid storage components 200 include at least two types, wherein the cosmetic materials stored in the liquid storage components 200 of different types are different, and the composition and the efficacy of the cosmetic materials stored in the liquid storage components 200 of different types can be different, for example, the cosmetic materials stored in the liquid storage components 200 of different types have the efficacy of anti-aging, anti-yellowing, repairing and brightening respectively. The types of the liquid storage component 200 include at least two of an anti-aging type, a yellow-removing type, a repairing type and a brightening type.

In some embodiments, the at least two modes of operation include at least two output modes including at least two of an anti-fade mode, a yellow-out mode, a repair mode, and a glow mode. The target output parameters corresponding to different output modes are different, the target output parameters comprise at least one of target frequency, target amplitude and target waveform, and the target waveform comprises at least one of sine wave waveform, triangular wave waveform and square wave waveform.

When the beauty apparatus 100 is in different output modes, the electrotherapy component 10 is controlled to output micro-currents according to different output parameters, so that micro-currents matched with different output modes and different beauty substances can be output, and accurate electrotherapy skin care can be performed according to different beauty efficacy requirements in different output modes.

Referring to fig. 11, a sub-flowchart of step S10 in fig. 1 is provided according to another embodiment of the present application. In some embodiments, as shown in fig. 11, when the liquid storage assembly 200 is detachably mounted to the cosmetic apparatus 100, the determining the operation mode of the cosmetic apparatus 100 includes:

s14: the type of the reservoir assembly 200 mounted to the beauty treatment instrument 100 is identified.

S15: the output mode included in the operation mode of the beauty instrument 100 is determined to be one of an anti-aging mode, a yellow-removing mode, a repair mode and a brightening mode according to the type of the liquid storage assembly 200.

In step S15, the control module 20 may determine, according to a preset correspondence between the type of the liquid storage assembly 200 and the output mode, that the output mode corresponding to the identified type of the liquid storage assembly 200 is the output mode included in the operation mode of the beauty instrument 100. The preset correspondence between the type of the liquid storage component 200 and the output mode defines that the anti-aging mode corresponds to the anti-aging mode, the yellow-removing mode corresponds to the yellow-removing mode, the repair mode corresponds to the repair mode, and the brightening mode corresponds to the brightening mode. The preset correspondence between the type of the liquid storage component 200 and the output mode may be stored in a memory (not shown) of the cosmetic apparatus 100 in advance, and the memory may be a nonvolatile memory.

By identifying the type of the liquid storage assembly 200 and determining the output mode according to the type of the liquid storage assembly 200, the working mode of the beauty instrument 100 can be adapted to the beauty substance stored in the liquid storage assembly 200, so that a better beauty effect can be achieved.

In some embodiments, the identifying the type of reservoir assembly 200 mounted to the cosmetic device 100 may include: determining the identification mark and/or the magnetic field parameter value according to the detection signal; according to a preset correspondence between a preset identification mark and/or a magnetic field parameter value and the type of the liquid storage component 200, it is determined that the type corresponding to the detected identification mark and/or magnetic field parameter value is the type of the liquid storage component 200 in contact with the beauty instrument 100. The preset correspondence between the identification and the type of the reservoir assembly 200 may be stored in the memory of the cosmetic apparatus 100 in advance, and the preset correspondence between the magnetic field parameter value and the type of the reservoir assembly 200 may be stored in the memory in advance.

In some embodiments, the reservoir assembly 200 is provided with identification indicia, with the identification indicia being different for different types of reservoir assemblies 200.

When the identification mark includes a color label, the color label may be a color area provided on the liquid storage component 200, for example, the color area may be formed on the liquid storage component 200 by printing, silk-screen printing, coating, pasting, etc.; the color label may also be the color of the reservoir assembly 200 itself, i.e., the reservoir assembly 200 is made of a material having a predetermined color. The detection module 40 may include the color recognition sensor and/or the image sensor, where the color recognition sensor is configured to detect tristimulus values of the recognition mark of the liquid storage assembly 200, including R values, G values, and B values, and output corresponding detection signals, where the detection signals include the detected tristimulus values. The identification of the liquid storage component 200 can be obtained according to the proportional relation of the tristimulus values included in the detection signal. Illustratively, the detection signal output by the color recognition sensor includes R, G, and B values of 255, 0, and 0, respectively, and the recognition mark of the reservoir assembly 200 is determined to be a red label when the R, G, and B values are received.

When the identification mark includes at least one of a pattern label, a text label and a digital label, the pattern label, the text label and the digital label may be patterns, characters and numbers formed on the liquid storage component 200 by printing, silk-screening, coating, pasting, etc. The detection module 40 may include an image sensor for acquiring image information of the identification mark and outputting a corresponding detection signal including image information of at least one of the acquired pattern, text and number. Image information of at least one of a pattern, a letter, and a number included in the identification signal may be image-processed and analyzed, thereby identifying at least one of a pattern, a letter, and a number of the identification of the reservoir assembly 200.

The information code may include at least one of a two-dimensional code and a bar code, and the code reader may include at least one of a two-dimensional code reader and a bar code reader for identifying the two-dimensional code and the bar code, respectively.

The electronic tag may include at least one of an RFID tag and an NFC tag, and the electronic tag reader may include at least one of an RFID tag reader and an NFC tag reader, which are respectively used for identifying the RFID tag and the NFC tag.

Wherein the magnetic field parameter value may include at least one of a magnetic field strength value and a magnetic flux value. The magnetic field parameter values of the magnetic attraction of the different types of reservoir assemblies 200 are different. The magnetic sensor may comprise at least one of a hall sensor and a gauss meter for detecting the magnetic field parameter value. Wherein, the magnetic attraction piece may be disposed at the connection portion 220.

Illustratively, the liquid storage assembly 200 is provided with an identification mark, the identification mark is a color label, the preset correspondence between the identification mark and the type of the liquid storage assembly 200 defines that the red label corresponds to an anti-aging type, the yellow label corresponds to a yellow-removing type, the blue label corresponds to a repairing type, and the green label corresponds to a brightening type, and the control module 20 determines that the type of the liquid storage assembly 200 is an anti-aging type when determining that the identification mark is a red label according to the identification signal.

In some embodiments, the target output parameter comprises at least one of a target frequency, a target amplitude, and a target waveform. When the target output parameters comprise the target frequency and/or the target amplitude, the target frequency corresponding to the anti-aging mode is larger than the target frequency corresponding to the yellow-removing mode, the repairing mode and the brightening mode, and/or the target amplitude corresponding to the anti-aging mode is larger than the target amplitude corresponding to the yellow-removing mode, the repairing mode and the brightening mode.

Illustratively, the target frequency for the anti-fade mode is 0.6Hz, the target amplitude is 400 μA, the target frequency for the anti-yellow mode is 0.5Hz, the target amplitude is 350 μA, the target frequency for the repair mode is 0.4Hz, the target amplitude is 300 μA, the target frequency for the glow mode is 0.3Hz, and the target amplitude is 250 μA.

The target frequencies and the target amplitudes corresponding to different output modes can be set according to actual requirements.

Wherein, by setting the target frequency and/or the target amplitude of the anti-aging mode to be larger, the EMS micro-current output by the electrotherapy assembly 10 can achieve the anti-aging and compact cosmetic effects when the cosmetic instrument 100 is in the anti-aging mode, and promote the regeneration of collagen; by setting the yellow removing mode, the repairing mode and the target frequency and/or the target amplitude corresponding to the brightening mode to be smaller than those of the anti-aging mode, the damage to the skin caused by the overlarge energy of the output EMS micro-current can be avoided, and the effects of removing the yellow, brightening, repairing the skin and brightening the skin can be achieved.

In some embodiments, the target frequency corresponding to the yellow-removing mode is greater than the target frequency corresponding to the repair mode and the glow mode, and/or the target amplitude corresponding to the yellow-removing mode is greater than the target amplitude corresponding to the repair mode and the glow mode.

When the target output parameters comprise target waveforms, the target waveforms comprise square waveforms and at least one of sine waveforms and triangular waveforms, and the duty ratio of the square waveforms in the target waveforms corresponding to the anti-aging mode is larger than the duty ratio of the square waveforms in the target waveforms corresponding to the yellow-removing mode, the repairing mode and the brightening mode.

Illustratively, the duty ratio of the square waveform in the target waveform corresponding to the anti-fade mode is 30%, the duty ratio of the square waveform in the target waveform corresponding to the anti-yellow mode is 20%, the duty ratio of the square waveform in the target waveform corresponding to the repair mode is 25%, and the duty ratio of the square waveform in the target waveform corresponding to the light-up mode is 15%.

The duty ratio of the square wave waveform in the target waveform corresponding to different output modes can be set according to actual requirements.

The square waveform in the target waveform corresponding to the anti-aging mode is set to be larger, so that the micro current output by the electrotherapy component 10 can be quickly increased to the corresponding amplitude, the requirement of the anti-aging mode on higher energy is further met, and the beautifying efficiency can be improved; by setting the yellow removing mode, the repairing mode and the brightening mode, the square wave form in the target wave form corresponding to the repairing mode is smaller, and the phenomenon that the skin feel is poor in the output mode due to the fact that the energy of the output EMS micro-current rises too fast can be avoided.

In some embodiments, the duty ratio of the square wave waveform in the target waveform corresponding to the yellow-removing mode is greater than the duty ratio of the square wave waveform in the target waveform corresponding to the repair mode and the brightening mode.

In other embodiments, the target waveform corresponding to the anti-fade mode includes at least one of a sine wave waveform, a triangle wave waveform, and a square wave waveform; the target waveform corresponding to the yellow-removing mode comprises at least one of a sine wave waveform, a triangular wave waveform and a square wave waveform; the target waveform corresponding to the repair mode comprises at least one of a sine wave waveform, a triangular wave waveform and a square wave waveform; the target waveform corresponding to the brightening mode comprises at least one of a sine wave waveform, a triangular wave waveform and a square wave waveform. The waveforms of the targets corresponding to the anti-aging mode, the yellow-removing mode, the repair mode and the brightening mode can be different in types, or the waveforms are the same in types and different in proportion.

Illustratively, the target waveform corresponding to the anti-attenuation mode comprises a square waveform and a sine waveform, the target waveform corresponding to the repair mode comprises a square waveform and a sine waveform, and the duty ratio of the square waveform in the target waveform corresponding to the anti-attenuation mode is larger than that of the square waveform in the target waveform corresponding to the repair mode; or the target waveform corresponding to the anti-fading mode comprises a square waveform, and the target waveform corresponding to the brightening mode comprises a sine waveform.

In some embodiments, the target output parameter includes at least one of a target frequency and a target amplitude, and the determining, according to the operation mode of the beauty treatment instrument 100, the target output parameter corresponding to the operation mode includes: when the operation mode of the beauty apparatus 100 includes an anti-aging mode, determining that a target frequency corresponding to the anti-aging mode is a third preset frequency and/or the corresponding target amplitude is a third preset amplitude; when the operation mode of the beauty apparatus 100 includes a yellow removing mode, determining that a target frequency corresponding to the yellow removing mode is a fourth preset frequency and/or the target amplitude corresponding to the yellow removing mode is a fourth preset amplitude; when the operation mode of the beauty apparatus 100 includes a repair mode, determining that a target frequency corresponding to the repair mode is a fifth preset frequency and/or the target amplitude corresponding to the repair mode is a fifth preset amplitude; when the operation mode of the beauty apparatus 100 includes a brightening mode, it is determined that a target frequency corresponding to the brightening mode is a sixth preset frequency and/or the corresponding target amplitude is a sixth preset amplitude.

Wherein the third preset frequency, fourth preset frequency, fifth preset frequency, and sixth preset frequency may be different, in some embodiments, the third preset frequency is greater than the fifth preset frequency and sixth preset frequency. The third preset amplitude, the fourth preset amplitude, the fifth preset amplitude, and the sixth preset amplitude may be different, and in some embodiments, the third preset amplitude is greater than the fourth preset amplitude, the fifth preset amplitude, and the sixth preset amplitude, and the third preset frequency is greater than the fourth preset frequency, the fifth preset frequency, and the sixth preset frequency.

In some embodiments, the at least two modes of operation include at least two region modes including at least two of an eye mode, a cheek mode, and a full face mode. The target output parameters corresponding to the different region modes are different, the target output parameters comprise at least one of target frequency, target amplitude and target waveform, and the target waveform comprises at least one of sine wave waveform, triangular wave waveform and square wave waveform.

When the beauty apparatus 100 is in different area modes, the electrotherapy assembly 10 is controlled to output micro-currents according to different output parameters, so that micro-currents matched with different area modes and different skin areas can be output, and accurate electrotherapy skin care can be performed according to the requirements of different skin areas on beauty efficacy in different area modes.

In some embodiments, the types of reservoir components include at least two of an eye-type, a cheek-type, and a full-face-type.

In some embodiments, as shown in fig. 2, the beauty apparatus 100 includes an eye action area 31 and a cheek action area 32 on the same surface of the mounting end 30, the electrotherapy unit 10 includes a first electrotherapy unit 10a and a second electrotherapy unit 10b, the first electrotherapy unit 10a corresponds to the eye action area 31, the second electrotherapy unit 10b corresponds to the cheek action area 32, the eye action area 31 and the cheek action area 32 face different skin areas when the beauty apparatus 100 is applied to the skin, the first electrotherapy unit 10a is used for outputting energy to the skin area facing the eye action area 31, and the second electrotherapy unit 10b is used for outputting energy to the skin area facing the cheek action area 32. The eye region of action 31 and cheek region of action 32 may lie in the same plane (as shown in fig. 2) or in the same curved surface.

The beauty treatment apparatus 100 may control one of the first and second electrotherapy units 10a and 10b to output independently, and may also control the first and second electrotherapy units 10a and 10b to output simultaneously. When the types of the liquid storage components include at least two of an eye type, a cheek type and a full face type, electrotherapy components corresponding to the types of different liquid storage components 200 are different, by determining a working mode according to the types of the liquid storage components 200 and controlling the output of the electrotherapy components 10 according to the working mode, the components for output are adapted to the types of the liquid storage components 200, and further, different components are controlled to be output in a targeted manner to different skin areas, so that the components for output are adapted to the skin areas, and the beauty is more intelligent.

The electrode 11 includes at least one first electrode 11a and at least one second electrode 11b. The first electrotherapy assembly 10a includes the at least one first electrode 11a, the at least one first electrode 11a is disposed through and fixed to the mounting end 30, and the first electrode 11a is located in the eye region 31.

The second electrotherapy assembly 10b includes the at least one second electrode 11b, the at least one second electrode 11b is disposed through and secured to the mounting end 30, and the second electrode 11b is located at the cheek region 32.

In some embodiments, the reservoir assembly 200 covers at least one of the ocular active region 31 and cheek active region 32 when the reservoir assembly 200 is removably mounted to the mounting end 30.

When the eye-type liquid storage component is mounted on the beauty apparatus 100, the eye-type liquid storage component covers the eye action area 31, and the cheek action area 32 is exposed to the eye-type liquid storage component.

When the cheek type liquid storage component is mounted on the beauty apparatus 100, the cheek type liquid storage component covers the cheek action area 32, and the eye action area 31 is exposed to the cheek type liquid storage component.

When the full-face type liquid storage component is mounted on the beauty apparatus 100, the full-face type liquid storage component covers the eye action area 31 and the cheek action area 32 at the same time.

The eye-type liquid storage component is suitable for an eye mode, namely, the eye area is beautified, the cheek-type liquid storage component is suitable for a cheek mode, namely, the cheek area is beautified, and the full-face-type liquid storage component is suitable for a full-face mode, namely, the full-face area is beautified. By providing an eye-type reservoir assembly that covers only the eye-active region 31 and a cheek-type reservoir assembly that covers only the cheek-active region 32, it is possible to avoid wasting cosmetic substances while satisfying the cosmetic requirements of the skin area that requires cosmetic treatment.

Referring to fig. 12, a sub-flowchart of step S10 in fig. 1 is provided according to another embodiment of the present application. In some embodiments, as shown in fig. 12, when the reservoir assembly 200 is mounted to the cosmetic apparatus 100, the determining the operation mode of the cosmetic apparatus 100 includes:

s16: the type of the reservoir assembly 200 mounted to the beauty treatment instrument 100 is identified.

S17: the operation mode of the beauty apparatus 100 is determined to include one of an eye mode, a cheek mode and a full face mode according to the type of the liquid storage assembly 200.

In step S17, the control module 20 may determine that the area mode corresponding to the identified type of the liquid storage assembly 200 is the area mode included in the operation mode of the beauty apparatus 100 according to the preset correspondence between the type of the preset liquid storage assembly 200 and the area mode. The preset correspondence between the type of the liquid storage component 200 and the region mode defines that the eye-type liquid storage component corresponds to the eye mode, the cheek-type liquid storage component corresponds to the cheek mode, and the full-face-type liquid storage component corresponds to the full-face mode. The preset correspondence between the type of the liquid storage component 200 and the area mode may be stored in the memory in advance.

Wherein, by identifying the type of the liquid storage assembly 200 and determining the area mode according to the type of the liquid storage assembly 200, the working mode of the beauty instrument 100 can be adapted to the type of the liquid storage assembly 200, so that different skin areas can be purposefully subjected to beauty treatment.

In some embodiments, the type of the reservoir assembly 200 mounted on the beauty instrument 100 may be identified according to the identification mark and/or the magnetic field parameter value included in the received detection signal and the preset correspondence between the preset identification mark and/or the magnetic field parameter value and the type of the reservoir assembly 200.

Illustratively, the identification mark is a color label, the preset correspondence between the identification mark and the type of the liquid storage component 200 defines that the liquid storage component 200 is light orange corresponding to an eye type, orange corresponding to a cheek type, and positive yellow corresponding to a full face type, and the control module 20 determines that the type of the liquid storage component 200 is an eye type when determining that the identification mark is light orange label according to the identification signal.

In other embodiments, the determining the operating mode of the cosmetic device 100 includes: an area mode selection instruction is received to determine a selected mode of operation of the cosmetic device 100. Wherein a region mode selection instruction may be received by the control module 20 to determine a selected mode of operation of the cosmetic device 100.

The receiving an area mode selection instruction to determine the selected operation mode of the cosmetic apparatus 100 may include: the region mode selection instruction is received in response to a first input operation at a display screen of the cosmetic instrument 100.

Illustratively, the display screen of the cosmetic instrument 100 displays a region mode option, and the selected region mode is determined to be the eye mode in response to a user clicking the eye mode on the display screen.

In some embodiments, the cosmetic apparatus 100 has at least two region mode buttons, and the receiving the region mode selection instruction may include: the region mode selection instruction is received in response to a second input operation to the region mode button.

Illustratively, the cosmetic instrument 100 has an eye mode button and a cheek mode button, and the selected region mode is determined to be the eye mode in response to a second input operation of the eye mode button by the user.

In other embodiments, the receiving the region mode selection instruction may include: and receiving an area mode selection instruction sent by a user through the mobile terminal.

Illustratively, the user sends a cheek mode selection instruction for selecting a cheek mode to the beauty apparatus 100 through a mobile phone, and the beauty apparatus 100 determines that the selected region mode is the cheek mode when receiving the cheek mode selection instruction.

In other embodiments, the receiving the region mode selection instruction may include: and receiving a voice instruction sent by a user.

Illustratively, the beauty instrument 100 determines that the selected region mode is the full-face mode when receiving a voice command of "select full-face mode" issued by the user.

When the cosmetic apparatus 100 is mounted with the liquid storage assembly 200 or the liquid storage assembly 200 is not mounted, the selected operation mode of the cosmetic apparatus 100 can be determined by the above-mentioned receiving area mode selection instruction.

In some embodiments, the target output parameter comprises at least one of a target frequency, a target amplitude, and a target waveform. When the target output parameter includes the target frequency and/or the target amplitude, the target frequency corresponding to the eye mode is smaller than the target frequency corresponding to the cheek mode, and/or the target amplitude corresponding to the eye mode is smaller than the target amplitude corresponding to the cheek mode, so that the energy of the micro-current output by the electrotherapy component 10 in the eye mode is suitable for fragile eye skin, the eye skin is prevented from being burned, the energy of the micro-current output by the electrotherapy component 10 in the cheek mode is suitable for facial skin, the requirement of the facial skin on the energy is met, and the better electrotherapy effect is achieved.

In some embodiments, the target frequency corresponding to the eye pattern is less than or equal to the target frequency corresponding to the full-face pattern, and/or the target amplitude corresponding to the eye pattern is less than or equal to the target amplitude corresponding to the cheek pattern.

When the target output parameter includes a target waveform, the target waveform includes a square waveform, and further includes at least one of a sine waveform and a triangle waveform, and the duty ratio of the square waveform in the target waveform corresponding to the eye mode is smaller than the duty ratio of the square waveform in the target waveform corresponding to the cheek mode, so that the energy of the micro-current output by the electrotherapy component 10 rises more gradually in the eye mode, the electrotherapy component is milder, and is suitable for the eye skin weaker than other face areas, so that the eye can be prevented from feeling stinging and burning, the body feeling of the eye skin can be improved, the energy of the micro-current output by the electrotherapy component 10 rises more quickly in the cheek mode, the energy suitable for the cheek skin can be reached more quickly, and the beautifying efficiency is improved.

In other embodiments, the target waveform corresponding to the eye pattern may include at least one of a sine wave waveform, a triangle wave waveform, and a square wave waveform; the target waveform corresponding to the cheek mode comprises at least one of a sine wave waveform, a triangular wave waveform and a square wave waveform; the target waveform corresponding to the full-face mode comprises at least one of a sine wave waveform, a triangular wave waveform and a square wave waveform. The waveforms of the targets corresponding to the eye mode, the cheek mode and the full face mode may be different in type, or the waveforms may be the same in type but different in proportion.

In some embodiments, each mode of operation has at least two phases of operation ordered in time sequence. For example, the operation mode has two operation phases, namely a first operation phase and a second operation phase, which are sequentially arranged in time, and the arrangement sequence of the first operation phase is before the second operation phase, when the beauty treatment instrument is in the operation mode, the electrotherapy assembly 10 is controlled to perform the first operation phase first, and the second operation phase is performed continuously after the first operation phase is completed. Obviously, the number of working phases of the working mode can be set to other values according to the requirements.

In step S20, the determining, according to the operation mode of the beauty apparatus 100, the target output parameter corresponding to the operation mode includes: and determining target output parameters corresponding to the at least two working phases of the working mode respectively, wherein the target output parameters corresponding to different working phases are different. Wherein, the control module 20 may determine target output parameters corresponding to the at least two working phases of the working mode respectively.

In step S30, the controlling the electrotherapy assembly 10 to output the micro-current with the target output parameter includes: when the beauty apparatus 100 is in any working stage, the electrotherapy assembly 10 is controlled to output micro-current according to the target output parameter corresponding to the working stage. For example, when the beauty treatment apparatus 100 is in the first working stage, the electrotherapy device 10 is controlled to output micro-current according to the target output parameter corresponding to the first working stage; when the beauty apparatus 100 is in the second working phase, the electrotherapy assembly 10 is controlled to output the micro-current according to the target output parameter corresponding to the second working phase. Wherein, the control module 20 can control the electrotherapy assembly 10 to output micro-current with the target output parameters corresponding to the working phase.

When the beauty apparatus 100 is in a certain working mode, the electrotherapy assembly 10 is controlled to output micro-currents with different target output parameters in different time periods, so that when the beauty apparatus 100 is in different working phases, the micro-currents output to the skin can change to a certain extent, the adaptability of the skin is improved, and a better beauty electrotherapy effect is achieved.

In other embodiments, the target output parameters corresponding to the at least two working phases are the same.

In some embodiments, the target output parameter comprises at least one of a target frequency, a target amplitude, and a target waveform. And when the target output parameters comprise the target frequency and/or the target amplitude, the target frequencies corresponding to the at least two working phases sequenced according to the time sequence are gradually increased and/or the corresponding target amplitudes are gradually increased. For example, the target frequency corresponding to the first working stage is smaller than the target frequency corresponding to the second working stage, and/or the target amplitude corresponding to the first working stage is smaller than the target amplitude corresponding to the second working stage, that is, the electrotherapy assembly 10 outputs at a lower target frequency and/or target amplitude first, and then outputs at a higher target frequency and/or target amplitude, so that when the electrotherapy assembly 10 outputs micro-current, the energy received by the skin area acted by the beauty instrument 100 gradually increases, and further the temperature of the skin area gradually increases, so that overheating caused by too fast temperature rise of the skin area can be avoided.

Illustratively, the first operating phase corresponds to a target frequency of 0.5Hz, a target amplitude of 300 μA, and the second operating phase corresponds to a target frequency of 0.6Hz, a target amplitude of 400 μA.

The target frequencies and the target amplitudes corresponding to different working phases can be set according to actual requirements.

In other embodiments, the at least two working phases ordered in time sequence correspond to the same target frequency and/or to the same target amplitude.

When the target output parameter includes a target waveform, the target waveform includes at least one of a sine wave waveform, a triangular wave waveform and a square wave waveform, and the target waveform corresponding to the first working stage or the first working stage to the first preset number of continuous working stages includes a sine wave waveform and/or a triangular wave waveform, and the target waveforms corresponding to the rest working stages include square wave waveforms.

For example, the target waveform corresponding to the first working stage includes a sine wave waveform and/or a triangular wave waveform, and the target waveform corresponding to the second working stage includes a square wave waveform.

The target waveforms corresponding to the working phases with the earlier sequences comprise sine wave waveforms and/or triangular wave waveforms, and the target waveforms corresponding to the working phases with the later sequences comprise square wave waveforms, so that when the beauty instrument 100 is in any working mode, the micro-current output by the electrotherapy component 10 at the initial stage changes smoothly, electrotherapy is mild, skin adaptation to the micro-current is facilitated, skin feeling such as stinging and discomfort can be avoided, then the amplitude change of the micro-current output by the electrotherapy component 10 is large, the beauty requirement of skin can be met, energy suitable for skin can be quickly reached, and the beauty efficiency can be improved.

In other embodiments, when the target output parameter includes a target waveform, the target waveform includes a square waveform, and further includes at least one of a sine waveform and a triangle waveform, and the duty ratio of the square waveform in the target waveforms corresponding to the at least two working phases ordered in time sequence is gradually increased.

Illustratively, the duty ratio of the square waveform in the target waveform corresponding to the first working phase is smaller than the duty ratio of the square waveform in the target waveform of the second working phase.

The duty ratio of square waveforms in the target waveforms corresponding to the working phases with the earlier sequence is smaller than that of square waveforms in the target waveforms corresponding to the working phases with the later sequence, so that the micro-current output by the electrotherapy component 10 at the initial stage changes gently, electrotherapy is mild, skin is facilitated to adapt to the micro-current, skin pricking, discomfort and the like can be avoided, then the amplitude change of the micro-current output by the electrotherapy component 10 is large, the cosmetic requirement of skin can be met, energy suitable for the skin can be quickly reached, and the cosmetic efficiency can be improved.

The duty ratio of the square waveform in the target waveform corresponding to each working stage can be set according to actual requirements.

In other embodiments, the target waveforms corresponding to the at least two working phases ordered in time series may be the same.

Referring to fig. 13, a sub-flowchart of step S30 in fig. 1 is provided according to an embodiment of the application. In some embodiments, as shown in fig. 13, the controlling the electrotherapy assembly 10 to output a microcurrent at the target output parameters includes:

S31: when the operation mode includes the eye mode, the first electrotherapy component 10a is controlled to output a micro-current at the target output parameter, and the second electrotherapy component 10b is controlled not to output.

S32: when the operation mode includes the cheek mode, the second electrotherapy component 10b is controlled to output a micro-current at the target output parameter, and the first electrotherapy component 10a is controlled not to output.

S33: when the operation mode includes the full face mode, the first electrotherapy component 10a and the second electrotherapy component 10b are controlled to output micro-currents according to the target output parameters.

When the working mode is determined to include the eye mode, the first electrotherapy component 10a is controlled to output and the second electrotherapy component 10b is controlled not to output, and when the working mode is determined to include the cheek mode, the second electrotherapy component 10b is controlled to output and the first electrotherapy component 10a is not output, so that micro-current can be pertinently controlled to output by corresponding components according to the facial area required by the user for beautifying, the beautifying requirement of the facial area of the user can be met, unnecessary components can be avoided to output, and further power consumption can be reduced. In addition, when it is determined that the operation mode includes the full face mode, the first electrotherapy unit 10a and the second electrotherapy unit 10b are controlled to output, so that the acting area of the cosmetic instrument 100 when acting on the skin can be increased, and the cosmetic efficiency of the cosmetic instrument 100 can be improved.

In some embodiments, the determining, according to the operation mode of the beauty treatment instrument 100, the target output parameter corresponding to the operation mode includes: when the working mode comprises a full-face mode, determining that the target output parameters corresponding to the full-face mode comprise a first target output parameter and a second target output parameter, wherein the first target output parameter and the second target output parameter are the same or different.

The controlling the first electrotherapy component 10a and the second electrotherapy component 10b to output micro-currents at the target output parameters includes: controlling the first electrotherapy component 10a to output a microcurrent at the first target output parameter, and controlling the second electrotherapy component 10b to output a microcurrent at the second target output parameter.

By controlling the first electrotherapy component 10a and the second electrotherapy component 10b to output micro-currents with the same output parameters, the micro-currents output by the first electrotherapy component 10a and the second electrotherapy component 10b to the skin region acted by the beauty instrument 100 can be the same, when the beauty instrument 100 acts on the same face region, the electrotherapy energy received by the face region is the same, and the influence of the same face region on the beauty effect of the face region due to the uneven received energy can be avoided.

When the first electrotherapy unit 10a and the second electrotherapy unit 10b are controlled to output micro-currents with different output parameters, the first electrotherapy unit 10a and the second electrotherapy unit 10b output different electrotherapy energies to different facial regions when the eye acting region 31 and the cheek acting region 32 act on the different facial regions, respectively, so that electrotherapy can be performed on the different facial regions in a targeted manner. For example, when the eye acting region 31 is in contact with the eye skin and the cheek acting region 32 is in contact with the cheek skin, the first electrotherapy unit 10a and the second electrotherapy unit 10b output energy corresponding to the eye skin and the cheek skin, respectively, so that the eye skin and the cheek skin can be electrotherapy targeted.

In some embodiments, the first target output parameter comprises a target frequency and/or a target amplitude, the second target output parameter comprises a target frequency and/or a target amplitude, the first target output parameter comprises a target frequency that is less than the target frequency comprised by the second target output parameter, and/or the first target output parameter comprises a target amplitude that is less than the target amplitude comprised by the second target output parameter.

By controlling the target frequency included in the first target output parameter to be smaller than the target frequency included in the second target output parameter and/or the target amplitude included in the first target output parameter to be smaller than the target amplitude included in the second target output parameter, when the beauty apparatus 100 acts on the face and the eye acting region 31 and the cheek acting region 32 are respectively contacted with the eye region and the cheek region, the energy output by the first electrotherapy component 10a and the second electrotherapy component 10b can correspond to the skin characteristics of the eye region and the cheek region, so that the damage of the eye skin due to excessive energy or the poor cosmetic effect of the cheek skin can be avoided.

In some embodiments, the first target output parameter and the second target output parameter each comprise a target waveform, the first target output parameter comprising a target waveform having a square waveform with a smaller duty cycle than the second target output parameter comprising a square waveform with a waveform, such that the change in energy output by the first electrotherapy assembly 10a is applicable to thinner skin regions of the eye and the change in energy output by the second electrotherapy assembly 10b is applicable to thicker skin regions of the cheek.

In some embodiments, the area of the eye acting region 31 is smaller than the area of the cheek acting region 32, that is, when the beauty apparatus 100 acts on the skin, the area of the orthographic projection of the eye acting region 31 on the skin is smaller than the area of the orthographic projection of the cheek acting region 32 on the skin, so that the acting area of the eye acting region 31 when acting on the skin is smaller than the acting area of the cheek acting region 32 when acting on the skin, and thus, according to the position of the facial region where the user needs to make up, different acting regions can be applied to the facial region, for example, when the user needs to make up the eye region, the eye acting region 31 can be applied to the eye region, because the area of the eye region is smaller, the eye acting region 31 with a smaller acting area can be applied to the eye region and the first electrotherapy component 10a is controlled to output, so that not only the cosmetic requirement of the eye region can be satisfied, but also the energy output can be avoided from being wasted and the power consumption can be reduced; when the cheek region is required to be beautified, the cheek region 32 is acted on the cheek region, and the cheek region 32 with larger acting area is acted on the cheek region and the second electrotherapy component 10b is controlled to be output because the cheek region is larger than the eye region, so that the requirement of the cheek region on beauty can be met, the output energy can be avoided to be wasted, and the power consumption can be reduced; when the whole face region is required to be beautified, the eye acting region 31 and the cheek acting region 32 are acted on the whole face, and the eye acting region 31 and the cheek acting region 32 are acted on the face and are controlled to output the first electrotherapy component 10a and the second electrotherapy component 10b due to the fact that the area required to be beautified is large, the energy output area can be increased, and the beautifying efficiency is improved.

In some embodiments, the at least two working modes include at least two of the foregoing output modes and at least two of the foregoing region modes, the at least two output modes include at least two of the foregoing anti-aging mode, anti-yellowing mode, repair mode, and glow mode, and the at least two region modes include at least two of the foregoing eye mode, face mode, and full face mode. The target output parameters corresponding to different working modes are different.

When the beauty apparatus 100 is in different output modes and area modes, the electrotherapy component 10 is controlled to output micro-currents according to different output parameters, so that micro-currents matched with different output modes and area modes can be output, namely micro-currents matched with beauty substances stored in different types of liquid storage components 200 and different skin areas can be output, and accurate electrotherapy skin care can be performed according to different beauty requirements in different output modes and area modes.

In some embodiments, the types of the reservoir assembly 200 include at least two of an eye anti-aging type, an eye yellowing type, an eye repair type, an eye brightening type, a cheek anti-aging type, a cheek yellowing type, a cheek repair type, a cheek brightening type, a full face anti-aging type, a full face yellowing type, a full face repair type, and a full face brightening type.

In some embodiments, the determining the operating mode of the cosmetic device 100 when the reservoir assembly 200 is mounted to the cosmetic device 100 includes: identifying a type of reservoir assembly 200 mounted to the cosmetic device 100; the operation mode of the beauty apparatus 100 is determined to be one of an eye anti-aging mode, an eye yellowing mode, an eye repair mode, an eye brightening mode, a cheek anti-aging mode, a cheek yellowing mode, a cheek repair mode, a cheek brightening mode, a full face anti-aging mode, a full face yellowing mode, a full face repair mode and a full face brightening mode according to the type of the liquid storage component 200.

Wherein, according to the preset correspondence between the type of the preset liquid storage component 200 and the working mode, the working mode corresponding to the identified type of the liquid storage component 200 is determined to be the working mode of the beauty instrument 100. The preset correspondence between the type of the liquid storage component 200 and the working mode defines that the eye anti-aging mode corresponds to the eye anti-aging mode, the eye yellowing mode corresponds to the eye yellowing mode, the eye repairing mode corresponds to the eye repairing mode, the eye brightening mode corresponds to the eye brightening mode, the cheek anti-aging mode corresponds to the cheek anti-aging mode, the cheek yellowing mode corresponds to the cheek yellowing mode, the cheek repairing mode corresponds to the cheek brightening mode, the full face anti-aging mode corresponds to the full face anti-aging mode, the full face yellowing mode corresponds to the full face yellowing mode, the full face repairing mode corresponds to the full face repairing mode, and the full face brightening mode corresponds to the full face brightening mode.

By identifying the type of the liquid storage assembly 200 and determining the working mode according to the type of the liquid storage assembly 200, the working mode of the beauty instrument 100 can be adapted to the affected skin area and the beauty substances stored in the liquid storage assembly 200, so that different skin areas can be beautified in a targeted manner, and corresponding effects can be achieved.

When the region modes are the eye modes and the output modes are an anti-aging mode, a yellow-removing mode, a repair mode and a brightening mode respectively, the first electrotherapy component 10a outputs with different target output parameters; when the area modes are the cheek mode and the output modes are an anti-aging mode, a yellow-removing mode, a repair mode and a brightening mode respectively, the second electrotherapy component 10b outputs with different target output parameters; when the area modes are the full face mode and the output modes are the anti-aging mode, the yellow-removing mode, the repair mode and the brightening mode respectively, the first electrotherapy component 10a outputs with different target output parameters, and the second electrotherapy component 10b outputs with different target output parameters.

When the output modes are the same and the region modes are different, the components for outputting are different. For example, when the output modes are the anti-aging mode and the region modes are the eye mode, the cheek mode and the full face mode, respectively, the components for outputting are the first electrotherapy component 10a, the second electrotherapy component 10b and the first electrotherapy component 10a and the second electrotherapy component 10b, respectively.

In some embodiments, the type of the reservoir assembly 200 mounted on the beauty instrument 100 may be identified according to the identification mark and/or the magnetic field parameter value included in the received detection signal and the preset correspondence between the preset identification mark and/or the magnetic field parameter value and the type of the reservoir assembly 200.

Illustratively, the liquid storage component 200 is provided with an identification mark, the identification mark is a color label, the preset correspondence between the identification mark and the type of the liquid storage component 200 defines that the red label corresponds to an eye anti-aging type, the yellow label corresponds to a cheek anti-yellowing type, the blue label corresponds to a full face repair type and the green label corresponds to an eye brightening type, and the control module 20 determines that the type of the liquid storage component 200 is an eye anti-aging type when determining that the identification mark is a red label according to the identification signal.

In some embodiments, when the operation mode of the beauty treatment apparatus 100 includes an anti-aging mode, the control module 20 controls the electrotherapy module to output EMS micro-current, the phototherapy module to emit red light and infrared light, and the hyperthermia module to heat; when the operation mode of the beauty apparatus 100 includes a repair mode, the control module 20 controls the electrotherapy module to output EMS micro-current and the phototherapy module to emit red light, orange light and infrared light; when the operation mode of the beauty apparatus 100 includes a yellow-removing mode, the control module 20 controls the electrotherapy module to output EMS micro-current, the phototherapy module to emit red light and orange light, and the hyperthermia module to heat; when the operation mode of the beauty treatment apparatus 100 includes a lighting mode, the control module 20 controls the electrotherapy assembly to output EMS micro-current, the phototherapy assembly to emit orange light, and the hyperthermia assembly to heat.

In some embodiments, each mode of operation has at least two energy levels, and the amount of energy of the microcurrent output by the electrotherapy assembly 10 is different for different energy levels in the same mode of operation. For example, a certain operation mode has three energy levels, and the energy of the micro-current corresponding to the three energy levels is gradually increased or gradually decreased, and when the beauty apparatus 100 is respectively located in the three energy levels in a certain operation mode, the energy of the micro-current output by the beauty apparatus 100 is gradually increased or gradually decreased.

After determining the operation mode of the beauty treatment instrument 100, the micro-current output control method further includes: and determining the energy gear of the working mode. The determining, according to the operation mode of the beauty instrument 100, the target output parameter corresponding to the operation mode includes: and determining a target output parameter corresponding to the energy gear according to the determined energy gear. Wherein, the control module 20 may determine the target output parameter corresponding to the energy gear according to the determined energy gear.

By determining the target output parameter according to the energy gear, the microcurrent output by the beauty instrument 100 can be adapted to the energy gear, and the beauty instrument can perform accurate electrotherapy skin care under different energy gears according to different beauty requirements.

In some embodiments, each operating mode has at least two energy levels, the at least two energy levels being ordered in advance in sequence, the energy of the microcurrent corresponding to the at least two energy levels increasing progressively in accordance with the ordering of the at least two energy levels. The target output parameter comprises at least one of a target frequency, a target amplitude and a target waveform, when the target output parameter comprises the target frequency and/or the target amplitude, the target frequency corresponding to the at least two energy gears is gradually increased according to the sequence of the at least two energy gears, and/or the target amplitude corresponding to the at least two energy gears is gradually increased according to the sequence of the at least two energy gears, namely the change trend of the target frequency and the target amplitude corresponding to the at least two energy gears is the same as the change trend of the micro current energy corresponding to the at least two energy gears; when the target output parameter comprises a target waveform, the target waveform comprises a square waveform and at least one of a sine waveform and a triangular waveform, the duty ratio of the square waveform in the target waveform corresponding to at least two energy gears is gradually increased according to the sequence of the at least two energy gears, namely the duty ratio of the square waveform in the target waveform corresponding to the at least two energy gears is the same as the change trend of the energy of the micro current corresponding to the at least two energy gears.

In some embodiments, the beauty treatment instrument 100 may be provided with at least two energy shift buttons, and the determining the energy shift of the operation mode may include: in response to an input operation of the energy level button, an energy level of the selected operation mode is determined. In other embodiments, the determining the energy gear of the operating mode may include: a voice command is received for energy gear selection to determine the energy gear of the selected operating mode.

Referring to fig. 2 again, an embodiment of the present application further provides a cosmetic apparatus 100, where the cosmetic apparatus 100 has at least two operation modes, as shown in fig. 2, the cosmetic apparatus 100 includes an electrotherapy component 10 and a control module 20, the electrotherapy component 10 is configured to output a micro-current to skin, the control module 20 is configured to determine the operation mode of the cosmetic apparatus 100, determine a target output parameter corresponding to the operation mode according to the operation mode of the cosmetic apparatus 100, where the target output parameter includes at least one of a target frequency, a target amplitude and a target waveform, and control the electrotherapy component 10 to output the micro-current with the target output parameter.

The control module 20 may include a single chip microcomputer, a CPU (central processing unit), a DSP (digital signal processor), and the like.

According to the beauty instrument 100 provided by the embodiment of the application, the micro-current is output by the electrotherapy component 10 according to the corresponding target output parameter by determining the working mode of the beauty instrument 100, so that the electrotherapy component 10 can output the micro-current matched with the working mode, and the beauty instrument 100 can perform accurate electrotherapy skin care under different working modes and beauty requirements.

The beauty apparatus 100 corresponds to the foregoing micro-current output control method, and for more detailed description, reference may be made to the contents of each embodiment of the foregoing micro-current output control method, and the contents of the beauty apparatus 100 and the foregoing micro-current output control method may also be referred to each other.

Referring to fig. 14, a block diagram of a cosmetic device 300 according to an embodiment of the application is shown. As shown in fig. 14, the cosmetic device 300 includes a liquid storage assembly 200 and the cosmetic device 100 according to any of the foregoing embodiments, wherein the cosmetic device 100 is configured to be detachably mounted to the liquid storage assembly 200, and is configured to be used in cooperation with the liquid storage assembly 200 when the liquid storage assembly 200 is mounted, the cosmetic substance is stored in the liquid storage assembly 200, and when the liquid storage assembly 200 is mounted to the cosmetic device 100, the liquid storage assembly 200 is configured to contact the skin and release the cosmetic substance to the skin surface when the cosmetic device 100 acts on the skin.

In some embodiments, a partially exploded view of the cosmetic device 300 is shown in fig. 8.

The embodiment of the application also provides a computer readable storage medium, wherein a computer program is stored in the computer readable storage medium, and the computer program is used for being executed after being called by a processing timer so as to realize the micro-current output control method provided by any embodiment.

Those of ordinary skill in the art will appreciate that all or a portion of the steps in the various methods of the above embodiments may be implemented by a program that instructs associated hardware, and the program may be stored in a computer readable memory, which may include: flash disk, read-only memory, random access memory, magnetic or optical disk, etc.

It should be noted that, for simplicity of description, the foregoing method embodiments are all described as a series of acts, but it should be understood by those skilled in the art that the present application is not limited by the order of acts described, as some steps may be performed in other orders or concurrently in accordance with the present application. Further, those skilled in the art will also appreciate that the embodiments described in the specification are all preferred embodiments, and that the acts and modules referred to are not necessarily required for the present application.

In the foregoing embodiments, the descriptions of the embodiments are emphasized, and for parts of one embodiment that are not described in detail, reference may be made to related descriptions of other embodiments.

The foregoing is a description of embodiments of the present application, and it should be noted that, for those skilled in the art, modifications and variations can be made without departing from the principles of the embodiments of the present application, and such modifications and variations are also considered to be within the scope of the present application.

Claims (14)

1. A cosmetic device, characterized in that it has at least two modes of operation; the cosmetic instrument includes:

an electrotherapy assembly for outputting micro-current to skin;

the control module is used for determining the working mode of the beauty instrument, determining a target output parameter corresponding to the working mode according to the working mode of the beauty instrument, wherein the target output parameter comprises at least one of target frequency, target amplitude and target waveform, and controlling the electrotherapy component to output micro-current according to the target output parameter;

The beauty instrument is detachably arranged with the liquid storage component and is used for being matched with the liquid storage component when the liquid storage component is arranged, the beauty substance is stored in the liquid storage component, when the liquid storage component is arranged on the beauty instrument, the liquid storage component is used for contacting with the skin and releasing the beauty substance to the surface of the skin when the beauty instrument acts on the skin, and the energy output by the electrotherapy component is transmitted to the skin through the beauty substance stored by the liquid storage component;

The at least two working modes comprise at least two region modes, wherein the at least two region modes comprise at least two of an eye mode, a cheek mode and a full face mode; the control module determines the working mode of the beauty instrument, comprising:

Identifying the type of a liquid storage component mounted on the cosmetic instrument;

and determining that the working mode of the beauty instrument is one of an eye mode, a cheek mode and a full face mode according to the identified type of the liquid storage component and the preset corresponding relation between the preset type of the liquid storage component and the area mode.

2. The cosmetic apparatus of claim 1, wherein each zone mode comprises at least two output modes, the at least two output modes comprising at least two of an anti-fade mode, a yellow-out mode, a repair mode, and a glow mode; the target output parameters corresponding to different output modes are different, the target output parameters comprise at least one of target frequency, target amplitude and target waveform, and the target waveform comprises at least one of sine wave waveform, triangular wave waveform and square wave waveform.

3. The cosmetic apparatus of claim 2, wherein the target output parameter comprises at least one of a target frequency, a target amplitude, and a target waveform, and wherein when the target output parameter comprises the target frequency and/or the target amplitude, the target frequency corresponding to the anti-fade mode is greater than the target frequencies corresponding to the anti-yellowing mode, the repair mode, and the glow-in mode, and/or the target amplitude corresponding to the anti-fade mode is greater than the target amplitudes corresponding to the anti-yellowing mode, the repair mode, and the glow-in mode; when the target output parameters comprise target waveforms, the target waveforms comprise square waveforms and at least one of sine waveforms and triangular waveforms, and the duty ratio of the square waveforms in the target waveforms corresponding to the anti-aging mode is larger than the duty ratio of the square waveforms in the target waveforms corresponding to the yellow-removing mode, the repairing mode and the brightening mode.

4. A cosmetic device according to claim 2 or claim 3, wherein the reservoir assembly is of a type comprising at least two, different types of reservoir assemblies storing different cosmetic substances; the determining, according to the identified type of the liquid storage component and the preset correspondence between the preset type of the liquid storage component and the area mode, that the working mode of the beauty instrument is one of an eye mode, a cheek mode and a full face mode includes:

according to the type of the identified liquid storage component and the preset corresponding relation between the type of the preset liquid storage component and the output mode, determining that the output mode of the beauty instrument is one of an anti-aging mode, a yellow-removing mode, a repairing mode and a brightening mode.

5. The cosmetic apparatus of claim 1, wherein the target output parameters corresponding to the different zone modes are different, the target output parameters including at least one of a target frequency, a target amplitude, and a target waveform, the target waveform including at least one of a sine wave waveform, a triangle wave waveform, and a square wave waveform.

6. The cosmetic apparatus of claim 5, wherein the target output parameter comprises at least one of a target frequency, a target amplitude, and a target waveform, and wherein when the target output parameter comprises the target frequency and/or the target amplitude, the target frequency corresponding to the eye pattern is less than the target frequency corresponding to the cheek pattern, and/or the target amplitude corresponding to the eye pattern is less than the target amplitude corresponding to the cheek pattern; when the target output parameter includes a target waveform, the target waveform includes a square waveform, and further includes at least one of a sine waveform and a triangular waveform, and a duty ratio of the square waveform in the target waveform corresponding to the eye mode is smaller than a duty ratio of the square waveform in the target waveform corresponding to the cheek mode.

7. The cosmetic apparatus of claim 5, wherein each mode of operation has at least two phases of operation ordered in time sequence; the control module determines a target output parameter corresponding to the working mode according to the working mode of the beauty instrument, and the target output parameter comprises:

Determining target output parameters corresponding to the at least two working phases of the working mode respectively, wherein the target output parameters corresponding to different working phases are different;

the control module controlling the electrotherapy assembly to output a microcurrent at the target output parameter, comprising:

and when the beauty instrument is in any working stage, controlling the electrotherapy component to output micro-current according to the target output parameters corresponding to the working stage.

8. The cosmetic apparatus of claim 7, wherein the target output parameter comprises at least one of a target frequency, a target amplitude, and a target waveform, and wherein when the target output parameter comprises the target frequency and/or target amplitude, the target frequencies and/or the target amplitudes corresponding to the at least two working phases ordered in time sequence gradually increase; when the target output parameter includes a target waveform, the target waveform includes at least one of a sine waveform, a triangular waveform and a square waveform, the target waveform corresponding to the first working stage or the first working stage to the first preset number of working stages includes a sine waveform and/or a triangular waveform, the target waveforms corresponding to the rest working stages include square waveforms, or the target waveform includes a square waveform, and at least one of a sine waveform and a triangular waveform, and the duty ratio of the square waveform in the target waveforms corresponding to the at least two working stages ordered according to a time sequence is gradually increased.

9. The cosmetic apparatus of claim 5, wherein the control module determines an operational mode of the cosmetic apparatus, further comprising:

And receiving an area mode selection instruction to determine the selected working mode of the cosmetic instrument.

10. The cosmetic apparatus of claim 5, wherein the cosmetic apparatus comprises an eye-region of action and a cheek-region of action on the same side, the electrotherapy assembly comprising a first electrotherapy assembly corresponding to the eye-region of action and a second electrotherapy assembly corresponding to the cheek-region of action, the eye-region of action and cheek-region of action being oriented towards different skin regions when the cosmetic apparatus is applied to skin, the first electrotherapy assembly being configured to output energy to the skin region towards which the eye-region of action is oriented, the second electrotherapy assembly being configured to output energy to the skin region towards which the cheek-region of action is oriented; the control module controlling the electrotherapy assembly to output a microcurrent at the target output parameter, comprising:

When the working mode comprises the eye mode, controlling the first electrotherapy component to output micro-current according to the target output parameter, and controlling the second electrotherapy component not to output micro-current;

when the operating mode includes the cheek mode, controlling the second electrotherapy component to output micro-current with the target output parameter and controlling the first electrotherapy component not to output;

And when the working mode comprises the full face mode, controlling the first electrotherapy component and the second electrotherapy component to output micro-current according to the target output parameters.

11. The cosmetic apparatus of claim 10, wherein the control module determines, according to an operation mode of the cosmetic apparatus, a target output parameter corresponding to the operation mode, comprising:

When the working mode comprises a full-face mode, determining that target output parameters corresponding to the full-face mode comprise a first target output parameter and a second target output parameter, wherein the first target output parameter and the second target output parameter are the same or different;

The control module controlling the first and second electrotherapy components to output a microcurrent at the target output parameter, comprising:

controlling the first electrotherapy component to output a microcurrent at the first target output parameter, and controlling the second electrotherapy component to output a microcurrent at the second target output parameter.

12. The cosmetic apparatus of claim 1, wherein each operating mode has at least two energy levels, the energy levels of the microcurrents output by the electrotherapy assembly being different for different energy levels; after determining the working mode of the beauty instrument, the control module is also used for determining the energy gear of the working mode; the control module determines a target output parameter corresponding to the working mode according to the working mode of the beauty instrument, and the target output parameter comprises:

and determining a target output parameter corresponding to the energy gear according to the determined energy gear.

13. A cosmetic device comprising a reservoir assembly and a cosmetic apparatus as claimed in any one of claims 1 to 12, the apparatus being adapted to be removably mounted with the reservoir assembly and adapted to be used in conjunction with the reservoir assembly when the reservoir assembly is mounted, the reservoir assembly having stored therein a cosmetic substance, the reservoir assembly being adapted to contact the skin and release the cosmetic substance to the skin surface when the apparatus is mounted to the apparatus.

14. A computer readable storage medium, wherein a computer program is stored in the computer readable storage medium, the computer program is used for being executed after being called by a processor to realize a micro-current output control method, the micro-current output control method is applied to a beauty instrument, the beauty instrument comprises an electrotherapy component, the electrotherapy component is used for outputting micro-current to skin, and the beauty instrument has at least two working modes; the micro-current output control method comprises the following steps:

Determining the working mode of the beauty instrument;

determining a target output parameter corresponding to the working mode according to the working mode of the beauty instrument, wherein the target output parameter comprises at least one of target frequency, target amplitude and target waveform; and

Controlling the electrotherapy component to output micro-current with the target output parameter;

The beauty instrument is detachably arranged with the liquid storage component and is used for being matched with the liquid storage component when the liquid storage component is arranged, the beauty substance is stored in the liquid storage component, when the liquid storage component is arranged on the beauty instrument, the liquid storage component is used for contacting with the skin and releasing the beauty substance to the surface of the skin when the beauty instrument acts on the skin, and the energy output by the electrotherapy component is transmitted to the skin through the beauty substance stored by the liquid storage component;

The at least two working modes comprise at least two region modes, wherein the at least two region modes comprise at least two of an eye mode, a cheek mode and a full face mode; the determining the working mode of the beauty instrument further comprises:

Identifying the type of a liquid storage component mounted on the cosmetic instrument;

and determining that the working mode of the beauty instrument is one of an eye mode, a cheek mode and a full face mode according to the identified type of the liquid storage component and the preset corresponding relation between the preset type of the liquid storage component and the area mode.