CN116785594A - Beauty instrument, output control method thereof, beauty system and storage medium - Google Patents

Abstract

The application provides a beauty instrument, an output control method thereof, a beauty system and a storage medium. The beauty instrument is used for being matched with various mediums, the mediums are used for being covered on the skin, the beauty instrument is used for outputting energy and is used for being contacted with the mediums to conduct the energy to the skin through the mediums, and the output control method of the beauty instrument comprises the following steps: identifying a medium that is or is to be covered on the skin; and determining target output energy according to the identification result of the medium, and controlling the beauty instrument to output with the target output energy when the beauty instrument outputs. The output control method of the beauty instrument provided by the application can identify the medium covered on the skin or to be covered on the skin, and control the beauty instrument to output corresponding energy according to the identification result of the medium, thereby improving the beauty effect of the beauty instrument.

Description

Beauty instrument, output control method thereof, beauty system and storage medium

Technical Field

The present application relates to the technical field of beauty treatment equipment, and in particular, to a beauty treatment instrument, an output control method thereof, a beauty treatment system and a storage medium.

Background

Along with the improvement of living standard, the popularity of radio frequency beauty instruments for beauty is increasing. The radio frequency beauty instrument penetrates the epidermis and reaches the dermis by using radio frequency waves to enable skin and dermis tissues to generate a thermal effect, the thermal stimulation effect of the radio frequency can enable elastic fibers and collagen fibers to instantly shrink to enable the skin to be more compact, the thermal stimulation starts a skin repair healing mechanism to stimulate regeneration and remodeling of new collagen fibers, and the loose aging state of the skin can be further repaired along with the increase and the tighter arrangement of the number of the new collagen fibers.

In order to better utilize the radio frequency energy of the radio frequency beauty instrument to carry out beauty, the radio frequency beauty instrument is matched with a facial mask, gel, essence and the like. At present, when the radio frequency beauty instrument is used for carrying out beauty treatment and diagnosis, no matter what face is positioned on the face, the energy output by the radio frequency beauty instrument is unchanged, but different face masks, different types of gels or essences output the same radio frequency energy for carrying out beauty treatment, so that the beauty treatment effect can be influenced, and the beauty treatment effect is poor.

Disclosure of Invention

In order to solve the technical problems, the application provides a beauty instrument, an output control method thereof, a beauty system and a storage medium, which can identify a medium covered on skin or to be covered on skin, and control the beauty instrument to output corresponding energy according to the identification result of the medium, thereby improving the beauty effect of the beauty instrument.

A first aspect of the present application provides a method of controlling the output of a cosmetic device for use with a plurality of mediums for application to the skin, the cosmetic device for outputting energy and for contacting the mediums to conduct energy to the skin through the mediums. The output control method of the beauty instrument comprises the following steps: identifying a medium that is or is to be covered on the skin; and determining target output energy according to the identification result of the medium, and controlling the beauty instrument to output with the target output energy when the beauty instrument outputs.

In a second aspect the application provides a cosmetic device for use with a plurality of mediums for application to the skin, the device for outputting energy and for contact with the mediums for conducting energy to the skin through the mediums. The beauty instrument comprises a first identification module and a control module, wherein the first identification module is used for identifying media covered on skin or to be covered on skin, and the control module is used for determining target output energy according to the identification result of the media and controlling the beauty instrument to output the target output energy when the beauty instrument outputs the target output energy.

A third aspect of the present application provides a cosmetic system comprising a plurality of mediums for application to the skin and a cosmetic apparatus as described above for outputting energy and for contacting the mediums to conduct energy to the skin through the mediums.

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 output control method of a cosmetic apparatus.

According to the beauty instrument, the output control method, the beauty system and the computer readable storage medium, the beauty instrument can intelligently output corresponding energy for the medium covered on the skin or to be covered on the skin by identifying the medium covered on the skin or to be covered on the skin, determining the target output energy according to the identification result of the medium and controlling the beauty instrument to output the target output energy, so that the beauty effect of the beauty instrument is improved.

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 an output control method of a cosmetic apparatus according to an embodiment of the present application.

Fig. 2 is a block diagram of a cosmetic apparatus according to an embodiment of the present application.

Fig. 3 is a block diagram of a beauty treatment system according to an embodiment of the present application.

Description of main reference numerals:

100-a beauty treatment instrument; 10-a first identification module; 20-a control module; 200-a cosmetic system; 150-medium.

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," "seventh," "eighth," "ninth," and the like are used for distinguishing between different objects and not for describing a particular sequential order, and furthermore, the orientation or positional relationship indicated by the terms "upper," "inner," "outer," etc. is based on the orientation or positional relationship shown in the drawings, merely for convenience of description and simplicity of description, and do not indicate or imply that the apparatus or element in question must have a specific orientation, be constructed and operated in a specific 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 together, fig. 1 is a flowchart illustrating a method for controlling output of a cosmetic apparatus according to an embodiment of the application, and fig. 2 is a block diagram illustrating a structure of a cosmetic apparatus 100 according to an embodiment of the application. The output control method of the beauty instrument is applied to the beauty instrument 100, the beauty instrument 100 is used for being matched with various mediums, the mediums are used for being covered on the skin, the beauty instrument 100 is used for outputting energy, and the beauty instrument 100 is used for being contacted with the mediums so as to conduct the energy to the skin through the mediums. As shown in fig. 1, the output control method of the beauty instrument includes the steps of:

s10: a medium that is or is to be covered on the skin is identified.

S20: and determining target output energy according to the identification result of the medium, and controlling the beauty instrument 100 to output with the target output energy when the beauty instrument 100 outputs.

According to the output control method of the beauty instrument, provided by the embodiment of the application, the medium covered on the skin or to be covered on the skin is identified, the target output energy is determined according to the identification result of the medium, and the beauty instrument 100 is controlled to output with the target output energy, so that the corresponding energy can be intelligently output aiming at the medium covered on the skin or to be covered on the skin, and the beauty effect of the beauty instrument 100 is improved. In addition, the beauty treatment and diagnosis process can be more convenient and efficient by intelligently adjusting the energy output by the beauty treatment instrument 100.

Wherein the medium may be used to cover the skin of any part of the human or other animal. In some embodiments, the medium may be used to cover a human face.

Wherein, in some embodiments, the medium may be a cosmetic substance that may be directly applied to the skin. For example, the medium may include one or more of a gel, essence, cream, lotion, toner, eye cream, lipstick, lip cream, lotion and moisturizing cream, and the medium may be other types of substances that have cosmetic skin care effects and may be directly applied to the skin. The medium has conductivity, and can conduct the energy output by the beauty instrument 100 to the skin, so that the energy output by the beauty instrument 100 can act on the skin to play a role in beauty restoration, and in the process of outputting the energy to the skin by the beauty instrument 100, the medium can moisten and lubricate the skin to play a role in buffering, so that the skin is prevented from being damaged. In addition, the medium can beautify and care skin, and the combination of the beauty instrument 100 and the medium can promote the absorption of the medium by the skin, so that the beauty effect of the beauty instrument 100 can be improved. By controlling the cosmetic instrument 100 to output the corresponding energy according to different media, it is advantageous to promote absorption of the media by the skin, and to facilitate penetration of the skin by the energy output by the cosmetic instrument 100 through the media.

In other embodiments, the medium may include a carrier for being impregnated with the functional substance and covering the skin after being impregnated with the functional substance, and the cosmetic instrument 100 may contact the carrier and the functional substance and transfer the output energy to the skin through the functional substance to perform beauty treatment, diagnosis, etc. on the skin. Wherein, in some embodiments, the medium may be a mask, the carrier may be a membrane cloth, and the functional substance may be essence, nutrient solution or other cosmetic skin care substance capable of infiltrating the membrane cloth. The medium may include the carrier and the functional substance independent of each other, that is, the carrier and the functional substance may be packaged independently, and when the medium is used, the carrier may be soaked in the functional substance, and then the carrier soaked with the functional substance may be applied to the skin. In other embodiments, the carrier of the medium is pre-impregnated with the functional substance, i.e. the carrier impregnated with the functional substance may be directly applied to the skin when the medium is in use. Identifying the medium by identifying the carrier and/or the functional substance and controlling the cosmetic instrument 100 to output corresponding energy according to different mediums is advantageous in promoting absorption of the functional substance in the medium by the skin and in penetrating the skin by the functional substance.

In some embodiments, different carriers may infiltrate different functional substances, that is, the functional substances of the multiple media may be different, for example, the functional substance of one of the multiple media is an essence, and the functional substance of the other medium is an emulsion. The plurality of mediums correspond to different output energies, and by outputting the mediums with different functional substances with corresponding energies, the absorption of the functional substances in the mediums by the skin is facilitated, and the energy output by the cosmetic instrument 100 penetrates the skin through the functional substances. In other embodiments, the carriers of the multiple mediums may infiltrate the same functional substance, and the multiple mediums correspond to different output energies, that is, each medium represents one output energy, and the multiple mediums may be suitable for users with different skin conditions, for example, a medium corresponding to a higher output energy may be suitable for users with thicker skin horny layers, a medium corresponding to a lower output energy may be suitable for users with thinner skin horny layers, the user may select a suitable medium according to the skin condition of the user, the output energy corresponding to the suitable medium may be suitable for the skin of the user, and the cosmetic instrument 100 may be caused to output energy suitable for the skin of the user by controlling the cosmetic instrument 100 to output the output energy corresponding to the suitable medium to make a targeted cosmetic or diagnostic treatment on the skin of the user.

Wherein the functional material has conductivity, and can transfer the energy output by the beauty instrument 100 to the skin, so that the energy output by the beauty instrument 100 can act on the skin to make the skin be cosmetically repaired. In the process of outputting energy to the skin by the beauty instrument 100, the functional substances can moisten and lubricate the skin to play a role in buffering, so that the skin is prevented from being damaged. In addition, the functional substance can beautify and care skin, and the beauty instrument 100 and the medium are combined for use, so that the absorption of the functional substance by the skin can be promoted, and the beauty effect of the beauty instrument 100 can be improved.

The beauty instrument 100 may emit one or more of radio frequency, EMS micro-current, ultrasonic wave, visible light, intense pulse light and laser to output energy, and the energy output by the beauty instrument 100 may be in other forms for use in beauty diagnosis and treatment. In some embodiments, the cosmetic device 100 may be a radio frequency cosmetic device, a penetration enhancer, an iontophoresis device, a photon skin care cosmetic device, a lattice laser cosmetic device, etc., and may be other types of devices with cosmetic diagnosis and treatment functions.

In step S10, the medium to be covered on the skin may be identified by the first identification module 10 of the beauty instrument 100 after the medium is covered on the skin, or the medium to be covered on the skin may be identified by the first identification module 10 of the beauty instrument 100 before the medium is covered on the skin. The first recognition module 10 may transmit the recognition result of the medium to the control module 20 of the beauty instrument 100. A target output energy may be determined by the control module 20 according to the identification result of the medium and the beauty instrument 100 may be controlled to output at the target output energy.

Wherein the beauty instrument 100 may include an energy output button for generating an energy output signal in response to a user's operation, the control module 20 of the beauty instrument 100 controlling the beauty instrument 100 to output energy when receiving the energy output signal.

Wherein, when the first recognition module 10 recognizes the medium covered on the skin and determines the target output energy according to the recognition result, the control module 20 controls the beauty instrument 100 to output the target output energy. Or, when the first recognition module 10 recognizes the medium covered on the skin and determines the target output energy according to the recognition result, the control module 20 controls the beauty instrument 100 to send out the prompt information of the recognition completion, when the user receives the prompt information of the recognition completion, the control module 20 can make the beauty instrument 100 output by pressing the energy output button, and when receiving the energy output signal, the control module 20 controls the beauty instrument 100 to output with the target output energy.

Wherein the beauty instrument 100 may include an energy output button for generating an energy output signal in response to a user's operation, the control module 20 of the beauty instrument 100 controlling the beauty instrument 100 to output energy when receiving the energy output signal. When the beauty instrument 100 recognizes a medium to be covered on the skin and determines a target output energy according to the recognition result, the user may press the energy output button after covering the medium on the skin, so that the beauty instrument 100 outputs, and the control module 20 controls the beauty instrument 100 to output at the target output energy when receiving an energy output signal. In other embodiments, the cosmetic device 100 may control output at the target output energy when it is detected that the medium has been covered the skin and the cosmetic device 100 is close to the medium.

In some embodiments, in step S10, the identifying the medium that is or is to be covered on the skin includes: at least one of a chemical composition, a property, and a physical structure of a medium to be covered or covered by skin is detected to identify the medium, the property of the medium including a physical property and/or a chemical property of the medium.

Wherein at least one of the chemical composition, the property, and the physical structure is different for different types of media.

Wherein the medium is identified by identifying at least one of a chemical composition, a property, and a physical structure of the medium, the medium can be identified according to the property and/or the structure of the medium itself, and thus the beauty instrument 100 can be used to output corresponding energy to different mediums.

In some embodiments, the physical properties of the medium include at least one of color, viscosity, conductivity, and roughness of the medium, the physical properties of the plurality of mediums being different from one another. The detecting at least one of a chemical composition, a property, and a physical structure of a medium to be covered on skin or to be covered on skin to identify the medium, comprising: at least one of color, viscosity, conductivity, and roughness of the skin or the medium to be covered by the skin is detected to identify the medium.

By detecting at least one of the color, viscosity, conductivity and roughness of the medium covered or to be covered by the skin, the medium can be quickly identified.

In some embodiments, the medium may be a cosmetic substance that may be applied directly to the skin, and may include, for example, one or more of a gel, an essence, a cream, an emulsion, a toner, an eye cream, a lipstick, a lip cream, a lotion, and a moisturizing lotion. The detecting at least one of a chemical composition, a property, and a physical structure of a medium to be covered on skin or to be covered on skin to identify the medium, comprising: at least one of color, viscosity, and conductivity of a medium to be or applied to the skin is detected to identify the medium.

Wherein in some embodiments the colors of the plurality of media are different from each other. In some embodiments, the medium may include a colored substance, which may be a stable and safe color, such as cochineal, carotene, turmeric, chlorophyll, capsanthin, rosy glycoside, CI 75135 reddish yellow, CI77891 titanium dioxide, and the like, added to cause the medium to appear color. The colored material may also be other types of colorants. The medium comprises an effective substance, wherein the effective substance has the effects of beautifying and protecting skin. In other embodiments, the active substance of the medium has a color, thereby rendering the medium colored. The medium may be identified by detecting the color of the medium.

Wherein the first recognition module 10 may be a color sensor, an image sensor, or the like when recognizing the medium by detecting the color of the medium. For example, the first recognition module 10 is a color sensor, and the color sensor is configured to detect tristimulus values of the medium, including an R value, a G value, and a B value, and derive a color of the medium according to a proportional relationship of the tristimulus values. For another example, the first recognition module 10 is an image sensor, and the image sensor is configured to collect image information of the medium, and perform image processing and analysis on the collected image information, so as to obtain a color of the medium.

Wherein in some embodiments the viscosities of the plurality of media are different from each other. In some embodiments, the composition of each of the plurality of media is different such that the viscosity of the plurality of media is different. For example, the plurality of mediums include a gel having a viscosity greater than a viscosity of an essence. In other embodiments, the plurality of media includes a different amount of thickener such that the plurality of media differ in viscosity. The medium can be identified by detecting its viscosity.

Wherein the first identification module 10 may be a viscometer or the like when the medium is identified by detecting the viscosity of the medium. For example, the viscometer can be a capillary viscometer, a rotary viscometer, a vibratory viscometer, a portable viscometer, and the like.

Wherein in some embodiments the medium may comprise a conductive substance, the plurality of mediums having different conductivities. In some embodiments, the conductive substance may be an active substance of the medium, i.e., the active substance has conductivity, and the active substance is a substance having a cosmetic skin care effect. In other embodiments, the conductive substance may be a substance having conductivity additionally added to the effective substance, and the conductive substance is safe and stable, and the conductive substance may be an electrolyte, for example, an aqueous solution of sodium chloride, an aqueous solution of sea salt. Obviously, the conductive substance may also be other substances having conductivity. In some embodiments, the conductive substance may also be the colored substance, i.e., the colored substance is colored and has conductivity. The medium may be identified by detecting its conductivity.

Wherein the first identification module 10 may be a conductivity sensor or the like when the medium is identified by detecting the conductivity of the medium. For example, the conductivity sensor may be an electrode type conductivity sensor, an inductive conductivity sensor, an ultrasonic conductivity sensor, or the like.

In some embodiments, in step S20, the determining the target output energy according to the identification result of the medium includes: determining the media category to which the media belongs according to the identification result of the media; and determining the output energy corresponding to the medium category to which the medium belongs as the target output energy according to a preset corresponding relation between the preset medium category and the output energy.

Wherein, the determining the media category to which the media belongs according to the identification result of the media may include: determining the type of the medium according to the corresponding relation between at least one of the preset color, viscosity range and conductivity range of the medium and the type of the medium and the detected at least one of the color, viscosity and conductivity of the medium.

The method includes determining, according to a preset correspondence between a color of a medium and a medium type, that the detected medium type corresponding to the color of the medium is the medium type to which the medium belongs, where the preset correspondence between the color of the medium and the medium type defines correspondence between colors of multiple mediums and multiple medium types, each color corresponds to a medium type, for example, red corresponds to gel, and white corresponds to face cream; and determining the output energy corresponding to the medium type to which the medium belongs as the target output energy according to the preset corresponding relation between the medium type and the output energy, wherein the preset corresponding relation between the medium type and the output energy defines the corresponding relation between a plurality of medium types and a plurality of output energies, each medium type corresponds to one output energy, for example, gel corresponds to a first output energy, face cream corresponds to a second output energy, and the first output energy is different from the second output energy.

Illustratively, determining a viscosity range in which the medium is located based on the detected viscosity of the medium; determining a medium class corresponding to a viscosity range of a medium as the medium class to which the medium belongs according to a preset corresponding relation between the viscosity range of the medium and the medium class, wherein the corresponding relation between the viscosity range of the medium and the medium class defines the corresponding relation between a plurality of viscosity ranges and a plurality of medium classes, each viscosity range corresponds to a medium class, for example, a first viscosity range corresponds to gel, and a second viscosity range corresponds to essence; according to a preset corresponding relation between a preset medium type and output energy, determining that the output energy corresponding to the medium type to which the medium belongs is the target output energy, wherein the preset corresponding relation between the medium type and the output energy defines that gel corresponds to first output energy and essence corresponds to third output energy.

Illustratively, determining a conductivity range in which the medium is located based on the detected conductivity of the medium; determining the color of a medium and the corresponding medium category of the conductivity range of the medium as the medium category of the medium according to the preset corresponding relation between the color and the conductivity range of the medium and the medium category, wherein the corresponding relation between the color and the conductivity range of the medium and the medium category defines the corresponding relation between a plurality of colors and a plurality of conductivity ranges and a plurality of medium categories, each color and each conductivity range corresponds to one medium category, for example, red and a first conductivity range corresponds to gel, white and a second conductivity range corresponds to cream; according to a preset corresponding relation between a preset medium type and output energy, determining the output energy corresponding to the medium type to which the medium belongs as the target output energy, wherein the preset corresponding relation between the medium type and the output energy defines that gel corresponds to first output energy and face cream corresponds to second output energy.

In other embodiments, in step S20, the determining the target output energy according to the identification result of the medium includes: the target output energy is determined based on at least one of the detected color, viscosity, and conductivity of the medium.

The target output energy can be determined according to a preset corresponding relation between at least one of a preset color, a viscosity range and a conductivity range of the medium and the output energy, and at least one of the detected color, viscosity and conductivity of the medium. The preset correspondence between at least one of the color, viscosity range, and conductivity range of the medium and the output energy may be stored in the memory of the cosmetic instrument 100 in advance.

For example, according to a preset correspondence between a preset color of a medium and output energy, determining the detected output energy corresponding to the color of the medium as the target output energy, where the preset correspondence between the color of the medium and the output energy defines a correspondence between colors of multiple media and multiple output energies, each color corresponds to one output energy, for example, red corresponds to a first output energy and white corresponds to a second output energy.

Illustratively, determining a viscosity range in which the medium is located based on the detected viscosity of the medium; and determining the output energy corresponding to the viscosity range of the medium as the target output energy according to the preset corresponding relation between the viscosity range of the preset medium and the output energy, wherein the corresponding relation between the viscosity range of the medium and the preset corresponding relation between the output energy defines the corresponding relation between a plurality of viscosity ranges and a plurality of output energies, each viscosity range corresponds to one output energy, for example, the first viscosity range corresponds to the first output energy, and the second viscosity range corresponds to the third output energy.

Illustratively, determining a conductivity range in which the medium is located based on the detected conductivity of the medium; and determining the output energy corresponding to the conductivity range of the medium as the target output energy according to the preset corresponding relation between the preset conductivity range of the medium and the output energy, wherein the preset corresponding relation between the conductivity range of the medium and the output energy defines the corresponding relation between a plurality of conductivity ranges and a plurality of output energies, each conductivity range corresponds to one output energy, for example, the first conductivity range corresponds to the first output energy, and the second conductivity range corresponds to the second output energy.

Illustratively, determining a viscosity range in which the medium is located based on the detected viscosity of the medium; and determining the output energy corresponding to the color and the viscosity range of the medium as the target output energy according to the preset corresponding relation between the color and the viscosity range of the preset medium and the output energy, wherein the preset corresponding relation between the color and the viscosity range of the medium and the output energy defines the corresponding relation between a plurality of colors, a plurality of viscosity ranges and a plurality of output energies, and each color and each viscosity range corresponds to one output energy.

In some embodiments, the medium includes the aforementioned carrier and the functional substance, the carrier is used to infiltrate the functional substance and cover the skin after infiltrating the functional substance, and the cosmetic instrument 100 is used to contact the carrier and conduct the output energy to the skin through the functional substance infiltrated by the carrier. The detecting at least one of a chemical composition, a property, and a physical structure of a medium to be covered on skin or to be covered on skin to identify the medium, comprising: detecting at least one of a color and a roughness of the skin or a carrier to be covered with the skin and/or detecting a conductivity of the functional substance to identify the medium.

Wherein in some embodiments, the color of the carrier of the plurality of media is different from each other, e.g., the color of the respective membrane cloth of the plurality of media is different. The medium can be identified by detecting the color of the carrier.

Wherein the color of the carrier can be detected by the aforementioned color sensor and/or image sensor.

In some embodiments, the roughness of the carriers of the multiple media is different from each other, for example, the carriers of the multiple media may be made of non-woven fabrics, silk, biological fibers, tencel fibers and long-length carbon, the roughness of the carriers made of different materials is different, and the media may be identified by detecting the roughness of the carriers.

Wherein the first recognition module 10 may be a roughness sensor or the like when recognizing the medium by detecting the roughness of the medium. For example, the roughness sensor may be a stylus roughness sensor, a light wave interferometry roughness sensor, or the like.

Wherein in some embodiments the functional species of the medium may comprise a conductive species, the functional species of the plurality of mediums having different conductivities. In some embodiments, the conductive substance may be an effective substance of the functional substance, that is, the effective substance has conductivity, and the effective substance is a substance having a cosmetic skin care effect. In other embodiments, the conductive substance may be a substance having conductivity additionally added to the functional substance, and the conductive substance is safe and stable, and the conductive substance may be an electrolyte, for example, an aqueous solution of sodium chloride, an aqueous solution of sea salt. Obviously, the conductive substance may also be other substances having conductivity. The medium can be identified by detecting the conductivity of the functional substance.

In some embodiments, as previously described, in step S20, the determining the target output energy according to the identification result of the medium includes: determining the media category to which the media belongs according to the identification result of the media; and determining the output energy corresponding to the medium category to which the medium belongs as the target output energy according to a preset corresponding relation between the preset medium category and the output energy.

Wherein, the determining the media category to which the media belongs according to the identification result of the media may include: determining the type of the medium according to the corresponding relation between at least one of the preset color, roughness range and conductivity range of the functional substance and the type of the medium and the detected at least one of the color, roughness and conductivity of the functional substance of the carrier.

The method includes determining that a detected medium class corresponding to a color of a carrier is a medium class to which the medium belongs according to a preset corresponding relation between the color of the carrier and the medium class, wherein the corresponding relation between the color of the carrier and the medium class defines the corresponding relation between the color of a plurality of carriers and a plurality of medium classes, each color corresponds to a medium class, for example, a black carrier corresponds to a whitening medium, and a yellow carrier corresponds to a moisturizing medium; according to the preset corresponding relation between the medium type and the output energy, determining the output energy corresponding to the medium type to which the medium belongs as the target output energy, for example, the preset corresponding relation between the medium type and the output energy defines the fourth output energy corresponding to the whitening medium and the fifth output energy corresponding to the moisturizing medium.

Illustratively, determining a roughness range of the carrier according to the detected roughness of the carrier; according to a preset corresponding relation between a roughness range of a carrier and a medium class, determining the medium class corresponding to the roughness range of the carrier as the medium class to which the medium belongs, wherein the corresponding relation between the roughness range of the carrier and the medium class defines the corresponding relation between a plurality of roughness ranges and a plurality of medium classes, each roughness range corresponds to one medium class, for example, a first roughness range corresponds to a whitening medium, and a second roughness range corresponds to a moisturizing medium; and determining the output energy corresponding to the medium category to which the medium belongs as the target output energy according to a preset corresponding relation between the preset medium category and the output energy.

Illustratively, determining a conductivity range in which the functional substance is located based on the detected conductivity of the functional substance; determining that the medium class corresponding to the conductivity range of the color and the functional substance of the carrier is the medium class to which the medium belongs according to the preset corresponding relation between the conductivity range of the color and the functional substance of the carrier and the medium class, wherein the corresponding relation between the conductivity range of the color and the functional substance of the carrier and the medium class defines the corresponding relation between a plurality of colors and a plurality of conductivity ranges and a plurality of medium classes, each color and each conductivity range corresponds to one medium class, for example, a black carrier and a first conductivity range corresponds to a whitening medium, and a yellow carrier and a second conductivity range corresponds to a water supplementing medium; and determining the output energy corresponding to the medium category to which the medium belongs as the target output energy according to a preset corresponding relation between the preset medium category and the output energy.

In other embodiments, in step S20, the determining the target output energy according to the identification result of the medium includes: the target output energy is determined based on at least one of the detected color, roughness of the carrier, and conductivity of the functional material.

The target output energy can be determined according to a preset corresponding relation between at least one of a preset carrier color, a preset roughness range and a preset conductivity range of the functional substance and the output energy, and at least one of the detected carrier color, roughness and the detected conductivity of the functional substance. The preset correspondence between at least one of the color, roughness range, and conductivity range of the functional substance and the output energy of the carrier may be stored in the memory of the cosmetic instrument 100 in advance.

The detected output energy corresponding to the color of the carrier is determined to be the target output energy according to a preset corresponding relation between the color of the carrier and the output energy, wherein the preset corresponding relation between the color of the carrier and the output energy defines a corresponding relation between the colors of a plurality of carriers and a plurality of output energies, each color corresponds to one output energy, for example, a black carrier corresponds to a fourth output energy, and a yellow carrier corresponds to a fifth output energy.

Illustratively, determining a roughness range of the carrier according to the detected roughness of the carrier; and determining the output energy corresponding to the roughness range of the carrier as the target output energy according to the preset corresponding relation between the roughness range of the carrier and the output energy, wherein the preset corresponding relation between the roughness range of the carrier and the output energy defines the corresponding relation between a plurality of roughness ranges and a plurality of output energies, each roughness range corresponds to one output energy, for example, a first roughness range corresponds to a fourth output energy, and a second roughness range corresponds to a fifth output energy.

Illustratively, determining a conductivity range in which the functional substance is located based on the detected conductivity of the functional substance; and determining the output energy corresponding to the conductivity range of the functional substance as the target output energy according to the preset corresponding relation between the conductivity range of the functional substance and the output energy, wherein the preset corresponding relation between the conductivity range of the functional substance and the output energy defines the corresponding relation between a plurality of conductivity ranges and a plurality of output energies, each conductivity range corresponds to one output energy, for example, the first conductivity range corresponds to the fourth output energy, and the second conductivity range corresponds to the fifth output energy.

Illustratively, determining a roughness range of the carrier according to the detected roughness of the carrier; and determining the color of the carrier and the output energy corresponding to the roughness range of the carrier as the target output energy according to the preset corresponding relation between the color and the roughness range of the carrier and the output energy, wherein the preset corresponding relation between the color and the roughness range of the carrier and the output energy defines the corresponding relation between a plurality of colors and a plurality of roughness ranges and a plurality of output energies, and each color and each roughness range corresponds to one output energy.

In some embodiments, the chemical nature of the medium includes the pH of the medium, and the pH of the plurality of media are different from each other. The detecting at least one of a chemical composition, a property, and a physical structure of a medium to be covered on skin or to be covered on skin to identify the medium, comprising: the chemical composition and/or pH of the medium to be or applied to the skin is detected to identify the medium.

Wherein the medium may be a cosmetic substance, which may be applied directly to the skin, the medium being identified by detecting the chemical composition and/or pH of the cosmetic substance.

Wherein the first identification module 10 may be a chemical composition detector when the medium is identified by detecting a chemical composition of the medium. For example, the chemical composition detector may be a micro infrared sensor, an element sensor, or the like.

Wherein the first identification module 10 may be a pH meter or the like when the medium is identified by detecting the pH value of the medium.

In some embodiments, the detecting chemical composition and/or pH of the medium to be covered or covered by the skin to identify the medium comprises: determining the component category of the medium according to the detected main chemical component of the medium, and/or determining the pH value range of the medium according to the detected pH value of the medium so as to identify the medium.

Wherein the medium may comprise one or more chemical components. In some embodiments, the medium includes a chemical component that is the primary chemical component of the medium, and detecting the chemical component of the medium that is or is to be applied to the skin to identify the medium may include: detecting a chemical component contained in the skin or the medium to be covered by the skin to identify the medium. In other embodiments, the medium includes a plurality of chemical components, the plurality of chemical components having different contents, and a higher content of the plurality of chemical components is a main chemical component of the medium, and detecting the chemical component of the medium covered or to be covered on the skin to identify the medium may include: detecting the main chemical component of the medium covered or to be covered by the skin, i.e. detecting the chemical component with higher content in the medium to identify the medium. The method comprises the steps of collecting an infrared spectrogram of a medium, wherein main functional groups in the infrared spectrogram of the medium are ester groups, determining that the medium mainly comprises ester compounds, and determining that the component category of main chemical components of the medium is the ester compounds; an infrared spectrogram of another medium is collected, main functional groups in the infrared spectrogram of the other medium are carboxylic acid groups, the other medium is determined to mainly comprise carboxylic acid compounds, the component category of the main chemical component of the other medium is determined to be carboxylic acid compounds, and the beauty instrument 100 can output corresponding energy for the medium with the component category of ester compounds and the medium with the component category of carboxylic acid compounds. Obviously, the medium may comprise other types of compounds as well as the main chemical components.

In some embodiments, the medium may include a particular chemical composition, and the plurality of media each include a different particular chemical composition. Detecting chemical components of a medium that is or is to be covered by skin to identify the medium may include: detecting a specific chemical composition of a medium applied to the skin or to be applied to the skin to identify the medium. The specific chemical component may be a chemical component with a higher content or even the highest content in the medium, or may be a chemical component with a lower content in the medium. The specific chemical component may be a specific compound and/or a specific element. The specific compound may be a compound contained in a substance having a cosmetic effect in the medium, or may be a compound added to the medium for labeling so as to identify the medium. The specific element may be an element contained in a substance having a cosmetic effect in the medium, or an element added to the medium for marking so as to identify the medium.

Illustratively, the plurality of mediums include two mediums, wherein a specific compound of one medium is a hydrocarbon compound, a specific compound of the other medium is a nicotinamide compound, and corresponding energy can be output for the medium in which the specific compound is a hydrocarbon compound and the medium in which the specific compound is a nicotinamide compound. Obviously, the specific compound may also be other compounds.

Illustratively, the plurality of mediums include two mediums, wherein a specific element of one medium is a silicon element, a specific element of the other medium is a magnesium element, and corresponding energy can be output for the medium of which the specific element is the silicon element and the medium of which the specific element is the magnesium element. Obviously, the specific element may also be other elements.

Wherein, when the chemical compositions of different media are different, the pH values of the various media will be different. In addition, the medium can be made to exhibit different pH values by adding substances having different acidity and alkalinity to the medium. The medium can be identified by identifying the pH of the medium.

In some embodiments, as previously described, in step S20, the determining the target output energy according to the identification result of the medium includes: determining the media category to which the media belongs according to the identification result of the media; and determining the output energy corresponding to the medium category to which the medium belongs as the target output energy according to a preset corresponding relation between the preset medium category and the output energy.

Wherein, the determining the media category to which the media belongs according to the identification result of the media may include: determining the medium category of the medium according to the corresponding relation between the preset component category and/or pH value range of the medium and the medium category and the detected chemical component and/or pH value of the medium; or determining the medium category to which the medium belongs according to the preset correspondence between the specific chemical composition and/or pH value range and the medium category and the detected chemical composition and/or pH value of the medium.

Illustratively, determining a component category to which the medium belongs based on the detected chemical component of the medium; determining a medium class corresponding to a component class to which the medium belongs as the medium class to which the medium belongs according to a preset corresponding relation between the component class and the medium class, wherein the corresponding relation between the component class and the medium class defines the corresponding relation between a plurality of component classes and a plurality of medium classes, and each component class corresponds to one medium class; and determining the output energy corresponding to the medium category to which the medium belongs as the target output energy according to a preset corresponding relation between the preset medium category and the output energy.

Illustratively, determining a pH range in which the medium is located based on the detected pH of the medium; determining that a medium class corresponding to a pH value range of a medium is a medium class to which the medium belongs according to a preset corresponding relation between the pH value range of the medium and the medium class, wherein the preset corresponding relation between the pH value range of the medium and the medium class defines a corresponding relation between a plurality of pH value ranges and a plurality of medium classes, each pH value range corresponds to a medium class, for example, a first pH value range corresponds to a whitening medium, and a second pH value range corresponds to a water supplementing medium; according to the preset corresponding relation between the medium type and the output energy, determining the output energy corresponding to the medium type to which the medium belongs as the target output energy, for example, the preset corresponding relation between the medium type and the output energy defines the fourth output energy corresponding to the whitening medium and the fifth output energy corresponding to the moisturizing medium.

In other embodiments, in step S20, the determining the target output energy according to the identification result of the medium includes: the target output energy is determined based on the detected chemical composition and/or pH of the medium.

Wherein the target output energy may be determined according to a preset correspondence between a preset component category and/or pH range and output energy, and a detected chemical component and/or pH of the medium. Alternatively, the target output energy may be determined based on a preset correspondence of a preset specific chemical composition and/or pH range to output energy and the detected specific chemical composition and/or pH of the medium.

The preset correspondence between the chemical components and/or pH values of the medium and the output energy and the preset correspondence between the specific chemical components and/or pH ranges and the output energy may be stored in the memory of the cosmetic apparatus 100 in advance.

Illustratively, determining a component category to which the medium belongs based on the detected chemical component of the medium; and determining the output energy corresponding to the component category to which the medium belongs as the target output energy according to a preset corresponding relation between the preset component category and the output energy, wherein the preset corresponding relation between the component category of the medium and the output energy defines the corresponding relation between a plurality of component categories and a plurality of output energies, each component category corresponds to one output energy, for example, an ester compound corresponds to the sixth output energy, and a carboxylic acid compound corresponds to the seventh output energy.

For example, the detected output energy corresponding to the specific chemical component of the medium is determined as the target output energy according to a preset correspondence between the preset specific chemical component and the output energy, where the preset correspondence between the specific chemical component and the output energy defines a correspondence between a plurality of specific chemical components and a plurality of output energies, each specific chemical component corresponds to an output energy, for example, a hydrocarbon compound corresponds to an eighth output energy, and a nicotinamide compound corresponds to a ninth output energy.

Illustratively, determining a pH range in which the medium is located based on the detected pH of the medium; and determining the output energy corresponding to the pH value range of the medium as the target output energy according to the preset corresponding relation between the pH value range of the preset medium and the output energy, wherein the preset corresponding relation between the pH value range of the medium and the output energy defines the corresponding relation between a plurality of pH value ranges and a plurality of output energies, each pH value range corresponds to one output energy, for example, the first pH value range corresponds to the fourth output energy, and the second pH value range corresponds to the fifth output energy.

Illustratively, determining a pH range in which the medium is located based on the detected pH of the medium; and determining the output energy corresponding to the component category and the pH value range of the medium as the target output energy according to the preset corresponding relation between the preset component category and the pH value range and the output energy, wherein the preset corresponding relation between the component category and the pH value range and the output energy defines the corresponding relation between a plurality of component categories, a plurality of pH value ranges and a plurality of output energies, and each component category and each pH value range corresponds to one output energy.

In some embodiments, as previously described, the media includes a support that is a porous structure, with the pores of the support being shaped differently for different media. The identification of the medium to be covered on the skin or to be covered on the skin comprises: the pore shape of the skin or the carrier to be covered by the skin is detected to identify the medium.

Wherein the first identification module 10 may be an image sensor when the medium is identified by detecting the pore shape of the carrier. The image sensor may include at least one of a monocular camera, a binocular camera, and an RGBD (RGB-Depth) camera, and is configured to collect image information of the carrier, and perform image processing and analysis on the collected image information, so as to obtain a shape of a pore of the carrier.

Illustratively, the pores of the carrier of the plurality of media are each circular, hexagonal, triangular, etc. in shape. Obviously, the shape of the pores of the carrier can be set to other shapes according to actual requirements, and the carriers of the various media can be distinguished.

In some embodiments, as previously described, in step S20, the determining the target output energy according to the identification result of the medium includes: determining the media category to which the media belongs according to the identification result of the media; and determining the output energy corresponding to the medium category to which the medium belongs as the target output energy according to a preset corresponding relation between the preset medium category and the output energy.

Wherein, the determining the media category to which the media belongs according to the identification result of the media may include: and determining the type of the medium according to the corresponding relation between the preset pore shape and the type of the medium and the detected pore shape of the carrier.

The method includes determining, according to a preset correspondence between pore shapes and media categories, that a detected media category corresponding to a pore shape of the carrier is a media category to which the media belongs, where the correspondence between pore shapes and media categories defines correspondence between a plurality of pore shapes and a plurality of media categories, each pore shape corresponds to one media category, for example, a circular pore corresponds to a whitening media, and a hexagonal pore corresponds to a moisturizing media; and determining the output energy corresponding to the medium category to which the medium belongs as the target output energy according to a preset corresponding relation between the preset medium category and the output energy.

In other embodiments, in step S20, the determining the target output energy according to the identification result of the medium includes: the target output energy is determined from the detected pore shape of the carrier.

Wherein the target output energy may be determined according to a preset correspondence between a preset pore shape and output energy and the detected pore shape of the carrier. The preset correspondence between the pore shape and the output energy may be stored in the memory of the beauty treatment instrument 100 in advance.

For example, the detected output energy corresponding to the pore shape of the carrier is determined as the target output energy according to a preset correspondence between the preset pore shape and the output energy, where the preset correspondence between the pore shape and the output energy defines a correspondence between a plurality of pore shapes and a plurality of output energies, each pore shape corresponds to one output energy, for example, a circular pore corresponds to a fourth output energy, and a hexagonal pore corresponds to a fifth output energy.

In some embodiments, the plurality of mediums are each adapted to be applied to a different facial area, each medium being adapted to be applied to a corresponding facial area. The output energy corresponding to each medium is suitable for the face area corresponding to the medium, and the face area corresponding to the medium can achieve better beautifying effect by identifying the medium and outputting the energy according to the identified target output energy corresponding to the medium and controlling the beautifying instrument 100 to output the face area corresponding to the medium with the target output energy.

In some embodiments, the face may be divided into four face regions of an eye region, a cheek region, a forehead region, and a perioral region, the plurality of media including a first medium, a second medium, a third medium, and a fourth medium, the first medium, the second medium, the third medium, and the fourth medium being for application to the eye region, the cheek region, the forehead region, and the perioral region, respectively. Obviously, the face can be divided into areas different from the four face areas by other dividing modes according to actual requirements.

In step S10, the identifying a medium covered or to be covered on the skin includes: a medium applied to the facial area and in contact with the beauty instrument 100 is identified.

The output control method of the beauty instrument further comprises the following steps: identifying a facial area in which the cosmetic instrument 100 is currently located; and judging whether the medium currently contacted by the beauty instrument 100 corresponds to the face area currently in which the beauty instrument 100 is positioned according to the preset corresponding relation between the preset medium and the face area.

In step S20, the determining the target output energy according to the identification result of the medium includes: when the medium currently contacted by the beauty instrument 100 corresponds to the face area where the beauty instrument 100 is currently located, the target output energy is determined according to the identification result of the medium. Therefore, when the medium corresponds to the smeared face area, the energy output by the beauty instrument 100 is controlled, that is, when the face area is smeared by the corresponding matched medium, the energy output by the beauty instrument 100 is controlled, so that the energy output by the beauty instrument 100 according to the identification result of the medium is suitable for the face area, and the problem that the energy output by the beauty instrument 100 is not suitable for the face area where the beauty instrument 100 is currently positioned to influence the beauty effect is avoided.

The face area where the beauty instrument 100 is currently located may be identified by a second identification module (not shown) of the beauty instrument 100, which may be an image sensor, a laser scanning sensor, or the like. For example, the second recognition module is an image sensor, and is configured to collect image information such as bone features, eyes, nose, lips, eyebrows, skin color, wrinkles, facial contours, and facial angles of a face area where the beauty treatment instrument 100 is currently located, and send the collected image information to the control module 20, where the control module 20, when receiving the image information, calculates the image information by an algorithm, and can determine the face area where the beauty treatment instrument 100 is currently located. The image sensor may include at least one of a monocular camera, a binocular camera, an RGBD (RGB-Depth) camera. For another example, the second recognition module may be a laser scanning sensor, where the laser scanning sensor is configured to collect contour information of a face area where the beauty treatment instrument 100 is currently located, and send the contour information to the control module 20, and when receiving the contour information, the control module 20 determines the face area where the beauty treatment instrument 100 is currently located.

Wherein, the control module 20 may determine whether the medium currently contacted by the beauty instrument 100 corresponds to the face area currently located by the beauty instrument 100 according to the preset correspondence between the preset medium and the face area.

In some embodiments, the preset correspondence between the preset medium and the face area defines correspondence between the first medium, the second medium, the third medium, and the fourth medium and the eye area, the cheek area, the forehead area, and the perioral area, that is, the first medium corresponds to the eye area, the second medium corresponds to the cheek area, the third medium corresponds to the forehead area, and the fourth medium corresponds to the perioral area. The preset correspondence of the medium and the facial area may be stored in advance in the memory of the cosmetic instrument 100. Obviously, the correspondence between the medium and the face area may also be set according to other division modes of the face. The output energy corresponding to the first medium, the second medium, the third medium and the fourth medium respectively can be different, the different face areas and the skin thickness are different, and in the embodiment of the application, the beauty diagnosis and treatment can be performed pertinently by outputting the corresponding output energy to the different face areas, so that a better beauty effect is achieved.

In some embodiments, the determining whether the medium currently contacted by the beauty treatment instrument 100 corresponds to the face area currently located by the beauty treatment instrument 100 according to the preset correspondence between the preset medium and the face area includes: determining a target face area corresponding to a medium currently contacted by the beauty instrument 100 according to the preset corresponding relation; when the face area where the beauty instrument 100 is currently located is the same as the target face area, determining that the medium currently contacted by the beauty instrument 100 corresponds to the face area where the beauty instrument 100 is currently located; or, determining a target medium corresponding to the face area where the beauty instrument 100 is currently located according to the preset corresponding relation; when the medium currently contacted by the beauty instrument 100 is the same as the target medium, it is determined that the medium currently contacted by the beauty instrument 100 corresponds to the face area where the beauty instrument 100 is currently located. The preset correspondence of the medium and the facial area may be stored in advance in the memory of the cosmetic instrument 100.

As described above, the preset correspondence between the preset medium and the face area defines the correspondence between the first medium, the second medium, the third medium, and the fourth medium and the eye area, the cheek area, the forehead area, and the perioral area, when the medium currently contacted by the beauty treatment instrument 100 is identified as the first medium, the eye area of the target face area is determined, and when the face area currently contacted by the beauty treatment instrument 100 is identified as the periocular area, the medium currently contacted by the beauty treatment instrument 100 is determined to correspond to the face area currently contacted by the beauty treatment instrument 100.

Still further exemplary, when the face area where the beauty instrument 100 is currently located is recognized as a perilabial area, the target medium is determined to be a fourth medium, and when the medium where the beauty instrument 100 is currently contacted is recognized as a fourth medium, it is determined that the medium where the beauty instrument 100 is currently contacted corresponds to the face area where the beauty instrument 100 is currently located.

In some embodiments, the determining, according to the preset correspondence between the preset medium and the face area, whether the medium currently contacted by the beauty instrument corresponds to the face area currently located by the beauty instrument further includes: when the face area where the beauty instrument is currently located is different from the target face area, determining that the medium currently contacted by the beauty instrument is not corresponding to the face area where the beauty instrument is currently located; or when the medium currently contacted by the beauty instrument is different from the target medium, determining that the medium currently contacted by the beauty instrument does not correspond to the face area currently located by the beauty instrument.

Illustratively, the target facial region eye region is determined when the medium currently contacted by the beauty instrument 100 is recognized as the first medium, and the medium currently contacted by the beauty instrument 100 is determined not to correspond to the facial region currently contacted by the beauty instrument 100 when the facial region currently contacted by the beauty instrument 100 is recognized as the cheek region.

Still further exemplary, when the face area where the beauty instrument 100 is currently located is identified as a forehead area, the target medium is determined to be a third medium, and when the medium where the beauty instrument 100 is currently contacted is identified as a second medium, it is determined that the medium where the beauty instrument 100 is currently contacted does not correspond to the face area where the beauty instrument 100 is currently located.

In some embodiments, the output control method of the cosmetic instrument further includes: when the medium currently contacted by the beauty instrument 100 does not correspond to the face area where the beauty instrument 100 is currently located, the beauty instrument 100 is controlled not to output energy and send out prompt information so as to prompt the user that the medium currently coated on the face area does not correspond to the face area. Thus, the beauty instrument 100 can be prevented from outputting energy when the medium does not correspond to the smeared face area, thereby avoiding affecting the beauty effect and improving the beauty efficiency.

Wherein, the beauty apparatus 100 may include a buzzer, a voice component, etc., and may send out a prompt message by sending out a buzzer and/or a voice prompt.

Referring again to fig. 2, the present application also provides a cosmetic device 100 as shown in fig. 2, wherein the cosmetic device 100 is used with a plurality of mediums for covering the skin, and the cosmetic device 100 is used for outputting energy and contacting with the mediums to conduct the energy to the skin through the mediums, as described above. The beauty instrument 100 includes a first identification module 10 and a control module 20, the first identification module is used for identifying a medium covered on skin or to be covered on skin, the control module 20 is used for determining a target output energy according to an identification result of the medium, and when the beauty instrument 100 outputs, the control module controls the beauty instrument 100 to output with the target output energy.

According to the beauty instrument 100 provided by the embodiment of the application, the medium covered on the skin or to be covered on the skin is identified, the target output energy is determined according to the identification result of the medium, and the target output energy is used for outputting, so that the corresponding energy can be intelligently output for the medium covered on the skin or to be covered on the skin, and the beauty effect of the beauty instrument 100 is improved. In addition, the beauty treatment and diagnosis process can be more convenient and efficient by intelligently adjusting the energy output by the beauty treatment instrument 100.

The control module 20 may be a processing chip such as a single chip microcomputer, a CPU (central processing unit), a DSP (digital signal processing), etc.

In some embodiments, the first identification module 10 is configured to detect at least one of a chemical composition, a property, and a physical structure of a medium to be covered or covered by skin to identify the medium, the property of the medium including a physical property and/or a chemical property of the medium.

In some embodiments, the first identification module 10 detects at least one of a chemical composition, a property, and a physical structure of a medium to be or to be covered by skin to identify the medium, including: at least one of color, viscosity, conductivity, and roughness of the skin or the medium to be covered by the skin is detected to identify the medium.

The first identification module 10 may include one or more of a color sensor, an image sensor, a viscometer, a conductivity sensor, and a roughness sensor, among others.

In some embodiments, the medium may be a cosmetic substance for application to the skin, and the first identification module 10 detects at least one of color, viscosity, conductivity, and roughness of the medium covered or to be covered to identify the medium, including: at least one of color, viscosity, and conductivity of a medium to be or applied to the skin is detected to identify the medium.

In some embodiments, as previously described, the medium includes a carrier for impregnating the functional substance and covering the skin after impregnating the functional substance, and a functional substance, and the cosmetic instrument 100 is for contacting the carrier and transmitting the output energy to the skin through the carrier-impregnated functional substance. The first identification module 10 detects at least one of color, viscosity, conductivity, and roughness of a medium covered or to be covered on the skin to identify the medium, including: detecting at least one of a color and a roughness of the skin or a carrier to be covered with the skin and/or detecting a conductivity of the functional substance to identify the medium.

In some embodiments, the medium may be a cosmetic substance for application to the skin, the chemistry of the medium including the pH of the medium, the pH of the plurality of mediums being different from one another. The first identification module 10 detects at least one of a chemical composition, a property, and a physical structure of a medium to be covered or covered on the skin to identify the medium, including: the chemical composition and/or pH of the medium to be or applied to the skin is detected to identify the medium.

Wherein the first identification module 10 may comprise a chemical composition detector and/or a pH meter.

In some embodiments, as previously described, the media includes a support that is a porous structure, with the pores of the support being shaped differently for different media. The first identification module 10 identifies a medium to be covered or to be covered on the skin, including: the pore shape of the skin or the carrier to be covered by the skin is detected to identify the medium.

In some embodiments, as previously described, the plurality of mediums are each adapted to be applied to a different facial area, each medium being adapted to be applied to a corresponding facial area. The first identification module 10 identifies a medium to be covered or to be covered on the skin, including: a medium applied to the facial area and in contact with the cosmetic instrument is identified.

The cosmetic device 100 further comprises a second recognition module (not shown) for recognizing a face area in which the cosmetic device 100 is currently located. The second identification module may be an image sensor and/or a laser scanning sensor.

The control module 20 is further configured to determine, according to a preset correspondence between a preset medium and a face area, whether the medium currently contacted by the beauty instrument corresponds to the face area currently where the beauty instrument is located. The control module 20 determines a target output energy based on the identification of the medium, including: when the medium currently contacted by the beauty instrument 100 corresponds to the face area where the beauty instrument is currently positioned, determining the target output energy according to the identification result of the medium; and when the medium currently contacted by the beauty instrument 100 does not correspond to the face area where the beauty instrument 100 is currently positioned, controlling the beauty instrument 100 to send out prompt information.

In some embodiments, the control module 20 determines, according to a preset correspondence between a preset medium and a face area, whether the medium currently contacted by the beauty treatment instrument 100 corresponds to the face area in which the beauty treatment instrument 100 is currently located, including: determining a target face area corresponding to a medium currently contacted by the beauty instrument 100 according to the preset corresponding relation; when the face area where the beauty instrument 100 is currently located is the same as the target face area, determining that the medium currently contacted by the beauty instrument 100 corresponds to the face area where the beauty instrument 100 is currently located; or, determining a target medium corresponding to the face area where the beauty instrument 100 is currently located according to the preset corresponding relation; when the medium currently contacted by the beauty instrument 100 is the same as the target medium, it is determined that the medium currently contacted by the beauty instrument 100 corresponds to the face area where the beauty instrument 100 is currently located.

In some embodiments, the control module 20 determines, according to a preset correspondence between a preset medium and a face area, whether the medium currently contacted by the beauty treatment instrument 100 corresponds to the face area in which the beauty treatment instrument 100 is currently located, and further includes: when the face area where the beauty instrument 100 is currently located is different from the target face area, determining that the medium currently contacted by the beauty instrument 100 does not correspond to the face area where the beauty instrument 100 is currently located; or, when the medium currently contacted by the beauty instrument 100 is different from the target medium, determining that the medium currently contacted by the beauty instrument 100 does not correspond to the face area where the beauty instrument 100 is currently located.

In some embodiments, the cosmetic device 100 includes an electrode for the cosmetic device 100 to output energy, e.g., output radio frequency energy, EMS micro-current, a power module, and an output switch. The output switch is connected between the power supply module and the electrode, and the control module 20 is connected with the output switch and is used for controlling and adjusting the duty ratio of the output switch so as to adjust the output energy. In some embodiments, the number of electrodes is a plurality.

The number of the output switches is a plurality of, and the number of the output switches is equal to that of the electrodes, and each output switch is connected between the positive electrode of the power supply module and a corresponding electrode. Wherein controlling the beauty treatment instrument 100 to output the target output energy may include: the control module 20 outputs a PWM (pulse width modulation) signal to the output switch to control the output switch to be alternately turned on and off at a duty ratio corresponding to the target output energy, so that the beauty instrument 100 outputs the target output energy.

The control module 20 may include a plurality of output pins, each for connecting with a corresponding output switch. The output switch may be a digital control switch, such as a MOS transistor, a BJT transistor, or the like. Taking the output switch as an MOS transistor as an example, each output pin of the control module 20 is connected to a gate of an MOS transistor, a drain of the MOS transistor is connected to an anode of the power module, and a source of the MOS transistor is connected to a corresponding electrode. The power output by the power supply module can be regulated to the corresponding required energy by changing the duty ratio of the output switch which is alternately switched on and off.

Referring to fig. 3, a block diagram of a cosmetic system 200 according to an embodiment of the present application is shown. In some embodiments, the cosmetic system 200 includes the cosmetic device 100 and the plurality of mediums 150 provided in any of the embodiments described above. As previously described, the medium 150 is configured to cover the skin, and the cosmetic device 100 is configured to output energy and to contact the medium 150 to conduct energy to the skin through the medium 150. The beauty instrument 100 is further configured to identify a medium 150 to be covered or covered on the skin, and determine a target output energy according to the identification result of the medium 150 and output the target output energy.

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

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 is executed after being called by a processor, so as to realize the output control method of the beauty instrument 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. An output control method of a beauty instrument, characterized in that the beauty instrument is used together with a plurality of mediums, the mediums are used for covering the skin, the beauty instrument is used for outputting energy and is used for contacting with the mediums to conduct the energy to the skin through the mediums; the output control method of the beauty instrument comprises the following steps:

identifying a medium that is or is to be covered on the skin;

and determining target output energy according to the identification result of the medium, and controlling the beauty instrument to output with the target output energy when the beauty instrument outputs.

2. The output control method of a cosmetic instrument according to claim 1, wherein the identifying the medium to be covered or covered on the skin comprises:

at least one of a chemical composition, a property, and a physical structure of a medium to be covered or covered by skin is detected to identify the medium, the property of the medium including a physical property and/or a chemical property of the medium.

3. The output control method of a cosmetic instrument according to claim 2, wherein the physical properties of the medium include at least one of color, viscosity, conductivity, and roughness of the medium, the physical properties of the plurality of mediums being different from each other; the detecting at least one of a chemical composition, a property, and a physical structure of a medium to be covered on skin or to be covered on skin to identify the medium, comprising:

At least one of color, viscosity, conductivity, and roughness of the skin or the medium to be covered by the skin is detected to identify the medium.

4. The output control method of a cosmetic apparatus according to claim 3, wherein the medium is applied to skin, and the detecting at least one of color, viscosity, conductivity, and roughness of the skin or the medium to be applied to the skin to identify the medium comprises:

at least one of color, viscosity, and conductivity of a medium to be or applied to the skin is detected to identify the medium.

5. The output control method of a cosmetic instrument according to claim 3, wherein the medium includes a carrier for impregnating the functional substance and covering the skin after impregnating the functional substance, and a functional substance, the cosmetic instrument is for contacting the carrier and transmitting the output energy to the skin through the functional substance impregnated by the carrier; the detecting at least one of color, viscosity, conductivity, and roughness of the skin or a medium to be coated on the skin to identify the medium comprises:

At least one of the color, roughness and conductivity of the functional substance of the skin or the carrier to be covered with the skin is detected to identify the medium.

6. The output control method of a cosmetic apparatus according to claim 2, wherein the chemical properties of the medium include pH values of the medium, the pH values of the plurality of mediums being different from each other; the detecting at least one of a chemical composition, a property, and a physical structure of a medium to be covered on skin or to be covered on skin to identify the medium, comprising:

the chemical composition and/or pH of the medium to be or applied to the skin is detected to identify the medium.

7. The output control method of a cosmetic instrument according to claim 2, wherein the medium includes a carrier, the carrier is a porous structure, and the shapes of pores of the carriers of different mediums are different; the identification of the medium to be covered on the skin or to be covered on the skin comprises:

the pore shape of the skin or the carrier to be covered by the skin is detected to identify the medium.

8. The method according to claim 1, wherein the plurality of mediums are applied to different face areas, respectively, each medium being applied to a corresponding face area; identifying a medium that is or is to be applied to the skin, comprising:

Identifying a medium applied to the facial area and in contact with the cosmetic instrument;

the method further comprises the steps of:

identifying a face area where the beauty instrument is currently located;

judging whether a medium currently contacted by the beauty instrument corresponds to a face area currently where the beauty instrument is positioned;

the determining the target output energy according to the identification result of the medium comprises the following steps:

and when the medium currently contacted by the beauty instrument corresponds to the face area where the beauty instrument is currently positioned, determining the target output energy according to the identification result of the medium.

9. The output control method of a cosmetic instrument according to claim 8, wherein the determining whether the medium currently contacted by the cosmetic instrument corresponds to the face area in which the cosmetic instrument is currently located, comprises:

and judging whether the medium currently contacted by the beauty instrument corresponds to the face area currently where the beauty instrument is positioned according to the preset corresponding relation between the preset medium and the face area.

10. The method according to claim 9, wherein the determining whether the medium currently contacted by the beauty instrument corresponds to the face area currently located by the beauty instrument according to the preset correspondence between the preset medium and the face area comprises:

Determining a target face area corresponding to a medium currently contacted by the beauty instrument according to the preset corresponding relation;

when the face area where the beauty instrument is currently located is the same as the target face area, determining that a medium currently contacted by the beauty instrument corresponds to the face area where the beauty instrument is currently located; or alternatively

Determining a target medium corresponding to a face area where the beauty instrument is currently located according to the preset corresponding relation;

and when the medium currently contacted by the beauty instrument is the same as the target medium, determining that the medium currently contacted by the beauty instrument corresponds to the face area currently located by the beauty instrument.

11. The output control method of a cosmetic apparatus according to any one of claims 8 to 10, characterized in that the method further comprises:

and when the medium currently contacted by the beauty instrument does not correspond to the face area where the beauty instrument is currently positioned, controlling the beauty instrument to send out prompt information.

12. A cosmetic device for use with a plurality of mediums for application to the skin, the device for outputting energy and for contacting the mediums to conduct energy to the skin through the mediums; the cosmetic instrument includes:

A first identification module for identifying a medium that is or is to be covered on the skin;

and the control module is used for determining target output energy according to the identification result of the medium and controlling the beauty instrument to output with the target output energy when the beauty instrument outputs.

13. A cosmetic system comprising a plurality of mediums for application to the skin and a cosmetic device according to claim 12 for outputting energy and for contacting the mediums for conducting energy to the skin through the mediums.

14. 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 processor, so as to implement the output control method of the beauty instrument according to any one of claims 1 to 11.