CN118178878A - Method for adjusting illumination output power of beauty instrument and photon beauty instrument - Google Patents

Abstract

The invention relates to a method for adjusting illumination output power of a beauty instrument and a photon beauty instrument, and belongs to the technical field of photon beauty, wherein the method for adjusting the illumination output power of the beauty instrument comprises the steps of obtaining skin color data of a user; comparing the obtained skin color data of the user with pre-stored skin color parameters, and judging the skin color type of the user; acquiring an illumination output power range corresponding to a skin color category according to the skin color category of a user; and determining a final illumination output power value from the illumination output power range, and driving the light source according to the final illumination output power value. According to the method, skin color of the user is detected, and proper flash illumination intensity is selected according to the detection result, so that the skin injury caused by improper selection of improper flash power by the user is effectively prevented, and the use experience of the user is improved.

Description

Method for adjusting illumination output power of beauty instrument and photon beauty instrument

Technical Field

The invention relates to the technical field of photon beauty equipment, in particular to a method for adjusting illumination output power of a beauty instrument and the photon beauty instrument.

Background

The existing photon beauty instrument irradiates the skin through light waves with specific wavelength so as to realize the effect of beauty or dehairing. In order to ensure the effect of beauty or hair removal, the light-emitting part in the hair removal instrument or the beauty instrument is required to send larger energy to the skin through strong light in a short time; because of the large difference of the complexion of different race, the absorptivity of the light is also different; the existing depilatory instrument or cosmetic instrument irradiates the skin of a user with default power, so that the skin of a part of people has high absorptivity of light for the same output power, and the situation that the user has stinging feeling and even scalds occurs when the depilatory instrument or cosmetic instrument is used; the skin of another part of people has low light absorptivity, so that the skin can feel poor in beauty effect; which seriously affects the sense of use experience of the user.

Disclosure of Invention

The invention aims to solve the technical problem that the existing beauty instrument often has skin scald, which greatly influences the use experience of users.

In order to solve the technical problems, the invention provides a method for adjusting illumination output power of a beauty instrument, which comprises the following steps: acquiring skin color data of a user; comparing the obtained skin color data of the user with pre-stored skin color parameters, and judging the skin color type of the user; acquiring an illumination output power range corresponding to a skin color category according to the skin color category of a user; and determining a final illumination output power value from the illumination output power range, and driving the light source according to the final illumination output power value.

In some embodiments of the application, the determining a final illumination output power value from the illumination output power range, and the determining a final illumination output power value comprises: and determining a final illumination output power value according to the selection of the illumination output power value in the illumination output power range by the user.

In some embodiments of the present application, the acquiring skin tone data of the user includes: an image of the skin of the user is acquired in situ by a skin tone sensor and skin tone data is extracted from the image of the skin.

In some embodiments of the present application, the step of comparing the obtained skin tone data of the user with pre-stored skin tone parameters and determining the skin tone category of the user includes: pre-storing a plurality of skin color categories in a database, wherein each skin color category corresponds to skin color data in a preset range; and comparing the obtained skin color data of the user with prestored parameters of each skin color category to determine the skin color category of the obtained user.

In some embodiments of the present application, the step of obtaining, according to a skin tone category of a user, an illumination output power range corresponding to the skin tone category includes: presetting a plurality of groups of illumination output power ranges with different interval values; associating each group of illumination output power ranges with a skin color category; and selecting a corresponding illumination output power range according to the corresponding determined user skin color category.

In some embodiments of the present application, the preset sets of illumination output power ranges with different interval values include: the interval values of the illumination output power ranges of adjacent groups partially overlap.

The application also provides a photon beauty instrument, which comprises: the energy storage module is used for storing electric energy; the light source is electrically connected with the energy storage module and is used for emitting light rays irradiating the skin of the user according to the driving of the electric energy input by the energy storage module; the skin sensor is used for acquiring skin color data of a user; the control module is connected with the energy storage module and the light source; the control module is also connected with the skin sensor, and acquires an illumination output power range corresponding to the skin color category according to the skin color category of the user; and determining a final illumination output power value from the illumination output power range, and driving the light source according to the final illumination output power value.

In some embodiments of the application, the control module comprises: the processor is connected with the skin sensor and is used for acquiring skin color data of a user for comparative analysis and sending out corresponding control signals; the controller is arranged between the energy storage module and the connecting circuit of the light source, is connected with the processor, receives a control signal sent by the processor and controls the output power of the light source according to the control signal.

In some embodiments of the present application, the processor includes an analysis module and a storage module that are connected to each other, the storage module pre-storing skin tone parameters of a plurality of different skin tone categories, and a plurality of sets of illumination output power ranges of different interval values; each group of illumination output power ranges is correspondingly associated with a skin color category;

The analysis module compares the user skin color data acquired by the skin sensor with parameters of skin color categories prestored in the storage module so as to judge the user skin color categories; and outputting corresponding illumination output power range control signals to the controller according to different skin color categories.

In some embodiments of the application, the photon beauty treatment instrument further comprises a boost module; the boosting module is electrically connected with the energy storage module and is used for charging the energy storage module.

According to the technical scheme, the beneficial effects of the invention are as follows:

The application provides a method for adjusting illumination output power of a beauty instrument and a photon beauty instrument, wherein the method for adjusting the illumination output power of the beauty instrument comprises the following steps: acquiring skin color data of a user; comparing the obtained skin color data of the user with pre-stored skin color parameters, and judging the skin color type of the user; acquiring an illumination output power range corresponding to a skin color category according to the skin color category of a user; and determining a final illumination output power value from the illumination output power range, and driving the light source according to the final illumination output power value.

By detecting the skin color of the user and selecting proper illumination output power according to the detection result, the photon beauty instrument effectively prevents the skin from being injured due to the fact that the photon beauty instrument starts improper illumination output power, or can not achieve effective depilating or beauty effect, and greatly improves the use experience of the user.

Drawings

Fig. 1 is a block diagram of a photon beauty treatment device in the present embodiment;

FIG. 2 is a block flow chart of the adjusting method of the illumination output power of the beauty treatment instrument in the present embodiment;

FIG. 3 is a block flow chart comparing the skin color data of the user obtained in step S200 in FIG. 2 with pre-stored skin color parameters and judging the skin color category of the user;

Fig. 4 is a flowchart of step S300 in fig. 2, according to a skin color category of a user, obtaining an illumination output power range corresponding to the skin color category.

The reference numerals are explained as follows:

10. An energy storage module; 20. a light source; 30. a controller; 40. a processor; 50. a skin sensor; 60. and a boosting module.

Detailed Description

Exemplary embodiments that embody features and advantages of the present invention will be described in detail in the following description. It will be understood that the invention is capable of various modifications in various embodiments, all without departing from the scope of the invention, and that the description and illustrations herein are intended to be by way of illustration only and not to be construed as limiting the invention.

In the description of the present application, it should be understood that in the embodiments shown in the drawings, indications of directions or positional relationships (such as up, down, left, right, front, rear, etc.) are merely for convenience of describing the present application and simplifying the description, and are not indicative or implying that the apparatus or elements referred to must have a particular orientation, be constructed and operated in a particular orientation. These descriptions are appropriate when these elements are in the positions shown in the drawings. If the description of the position of these elements changes, the indication of these directions changes accordingly.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more of the described features. In the description of the present application, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

The photon beauty instrument aims at the existing photon beauty instrument to irradiate the skin through light waves with specific wavelengths so as to realize the effect of beauty or dehairing. In order to secure the beauty or hair removal effect, it is required that the light emitting part of the hair removal device or the beauty device transmits a large amount of energy to the skin by strong light in a short time. Because of the large difference of the complexion of different race, the absorptivity of the light is also different; the existing depilatory instrument or cosmetic instrument irradiates the skin of a user with default power, so that the skin of a part of people has high absorptivity of light for the same output power, and the situation that the user has stinging feeling and even scalds occurs when the depilatory instrument or cosmetic instrument is used; the skin of another part of people has low light absorptivity, so that the skin can feel poor in beauty effect; which seriously affects the technical problem of the user's sense of use experience.

The embodiment provides a method for adjusting illumination output power of a beauty treatment instrument and a photon beauty treatment instrument, which can adjust corresponding light source output power according to skin data of a user, prevent the user from generating stinging feeling and causing scalding, and improve the use experience of the user.

Referring to fig. 1, in the present embodiment, the photon beauty treatment apparatus includes an energy storage module 10, a light source 20, a skin sensor 50 and a control module.

The energy storage module 10 is electrically connected with the light source 20, and the energy storage module 10 is used for outputting voltage to the light source 20, so that the light source 20 can emit light rays irradiating the skin of the user to achieve the corresponding illumination beauty effect.

In some examples of this embodiment, the energy storage module 10 may be a capacitor; the capacitor has high power density and rapid charge and discharge characteristics, and is suitable for applications requiring short-time high power output. The light source 20 may be a flash tube in which an inert gas is discharged by a current to generate light, which emits a large amount of light energy in a very short time to provide instantaneous high brightness. The capacitor is communicated with the flash lamp tube through the connecting circuit, so that the energy stored in the capacitor can be released through the flash lamp tube.

In other embodiments, the energy storage module 10 may be a power supply device such as a battery, and the light source 20 may be an illumination device such as an LED lamp or a radio frequency flash lamp, which may be selected according to practical use requirements.

Referring to fig. 1, in the present embodiment, a skin sensor 50 of the photon beauty treatment device is used to obtain skin color data of a user. The control module is connected to the energy storage module 10 and the light source 20 and to the skin sensor 50. The control module may adjust the output power of the light source 20 based on the user skin tone data acquired by the skin sensor 50.

In this embodiment, the skin sensor 50 is disposed in the system, and the skin color data of the user acquired by the skin sensor 50 is transmitted to the control module, so that the control module can adjust the output power of the light source 20 according to the skin color data. Through the feedback system, the technical problem that the skin of different users is burnt due to different bearing intensities can be effectively prevented.

In some examples of this implementation, the skin sensor 50 may be an image pickup device, such as a camera, that can analyze skin tone information in a skin image by taking a picture of the user's skin and by computer vision or image recognition algorithms, and feed the skin tone information back into the control module, where it is analyzed and processed by the control module to regulate the intensity of illumination appropriate to the user's skin.

In some examples of this embodiment, the skin sensor 50 may be an optical sensor, such as a spectrum analyzer, that is capable of measuring spectral characteristics of the skin surface reflection. The spectral characteristics can be used for determining parameters such as the color, the tone, the brightness, the saturation and the like of the skin, the parameters are fed back into the control module, and the parameters are analyzed and processed through the control module so as to regulate and control the illumination intensity suitable for the skin of a user.

In other embodiments, the skin sensor 50 may also obtain parameters such as temperature and humidity of the skin, and transmit the parameters such as temperature and humidity of the user to the control module in real time, so that the control module can analyze the parameters to regulate and control the skin illumination intensity emitted by the light source 20 in real time.

Referring to fig. 1, in the present embodiment, the control module includes a processor 40 and a controller 30.

Wherein the processor 40 is connected to a skin sensor 50. The processor 40 is configured to obtain skin color data of the user from the skin sensor 50, compare and analyze the skin color data, and send out corresponding control signals.

The controller 30 is disposed between the energy storage module 10 and the connection circuit of the light source 20, and the controller 30 is electrically connected with the processor 40. The controller 30 receives the control signal from the processor 40 and controls the output power of the light source 20 according to the control signal.

In some examples of this embodiment, the processor 40 may be a control circuit board provided in the automatic dimming terminal device that is wired to the skin sensor 50 and the controller 30 in the automatic dimming terminal device through a cable or cable, so that user skin data acquired by the skin sensor 50 can be transmitted to the processor 40 for processing analysis. And outputs a corresponding control signal to the controller 30 according to the processing analysis result, and then controls the output power of the light source 20 through the controller 30.

In other embodiments, the processor 40 may also be a mobile phone, a computer, a cloud, or the like, which is responsible for performing various computing tasks and controlling operations. The processor 40 may be wirelessly connected to the controller 30 and the skin sensor 50 via bluetooth, wiFi, TCP/IP data communication protocols or a local area network. At this time, the whole photon beauty instrument is a discrete system, and a user can hold the skin sensor 50 to obtain skin color information of the user at this time, and transmit the obtained skin color information to the remote processor 40 for analysis and processing, the processor 40 outputs different control signals according to different skin information, and then transmits the control signals to the controller 30 in the connection circuit, and the controller 30 realizes control of the output power of the light source 20 according to the control signals.

In other embodiments, the processor 40 may form an integral device with the skin sensor 50 that may acquire skin data of a user and perform analysis processing on the skin data.

In other embodiments, the processor 40 and the controller 30 may form an integrated device that can analyze skin data and regulate the output power of the light source 20.

In some examples of the present embodiment, the controller 30 is disposed between the connection circuit of the energy storage module 10 and the light source 20, and can adjust the voltage or current passing through the light source 20 to increase or decrease the output power of the power source, so as to achieve the purpose of controlling the intensity of the illumination emitted by the light source 20.

In some examples of this embodiment, processor 40 and controller 30 may control the output power of light source 20 by Pulse Width Modulation (PWM).

Specifically, the processor 40 may output a square wave control signal based on different user skin tone information. During one discharge period of the capacitor, the square wave control signal is divided into two parts: a high level (On) and a low level (Off). When the controller 30 receives the high level portion, the controller 30 connects the connection circuit, the light source 20 is in the on state, and when the controller 30 receives the low level portion, the controller 30 disconnects the connection circuit. By adjusting the ratio of the duration of the high level to the cycle time, i.e. the duty cycle, the average output power of the light source 20 can be controlled to regulate the intensity of the illumination to the skin of the user.

In this example, the processor 40 may include a storage module and an analysis module that are connected to each other, where the storage module stores a plurality of skin tone parameters of different types and a plurality of sets of illumination output power ranges of different interval values; each set of illumination output power ranges is associated with a skin tone class. The analysis module compares the user skin color data acquired by the skin sensor with parameters of skin color categories prestored in the storage module to judge the user skin color categories; and outputting corresponding illumination output power range control signals to the controller according to different skin color categories.

In some examples of this embodiment, the skin is divided into a plurality of different categories of skin tone according to different skin pigment parameters. The skin can be classified into six major categories according to the existing international standard, and has the following steps:

The I category is: the skin of the white people in North European or North American areas is very white and almost has no pigment; skin is prone to sunburn, and after sunburn the skin typically becomes reddish and then molts, but rarely shines brown. The II category is: white people in the middle of europe have fair skin and small amounts of pigments, but are still lighter; skin is easy to burn, and after the skin is burned, the skin becomes red, but the skin is burned to brown to a certain extent. Class III is: people in coastal areas of Mediterranean, southeast Asia and Central America, skin with moderate complexion, some people may have light brown color, skin sunburn is easier, but skin can be brown to a certain extent after sunburn. Category IV is: the skin of people in Mediterranean, middle east and Latin America is olive-colored or brown, has more pigments, is not easy to burn, and is easy to burn to brown. Category V is: the skin of people in Africa, india and middle east is dark brown, and is more pigment, less prone to sunburn and easy to brown. Category VI: people in africa have very dark brown or black skin, have many pigments, hardly burn, and the skin is always brown. Wherein the skin tone is progressively darker from category I to category VI.

Further, the processor 40 is preset with an illumination output range corresponding to each skin color category, and the illumination power output range has six groups, which are divided into a first output level, a second output level, a third output level, a fourth output level, a fifth output level and a sixth output level.

Wherein the first output energy level corresponds to the I skin tone category and the second output energy level corresponds to the II skin tone category; the third output energy level corresponds to the III skin tone class; the fourth output energy level corresponds to the IV skin tone class; the fifth output energy level corresponds to a V skin tone category; the sixth output energy level corresponds to the VI skin tone category.

In this embodiment, the darker the skin tone, the easier it is to absorb light, so the light source 20 needs to be irradiated with low power. The lighter the skin tone, the more easily the light is reflected, so the light source 20 needs to be irradiated with high power. Accordingly, from the first output level to the sixth output level, the duty cycle of the square wave signal output by the processor 40 gradually increases and the output power on the light source 20 gradually decreases so that darker skin tones correspond to smaller light source 20 output power.

In some examples of this embodiment, the power output range intervals of a corresponding set of light sources 20 for each output energy level, and the power output interval values of the light sources 20 for adjacent energy levels partially overlap.

For example, the output power interval of the light source 20 corresponding to the first output energy level is 14J-18J; the output power interval of the light source 20 corresponding to the second output energy level is 12J-16J; the output power interval of the light source 20 corresponding to the third output energy level is 10J-14J; the output power interval of the light source 20 corresponding to the fourth output energy level is 8J-12J; the output power interval of the light source 20 corresponding to the fifth output energy level is 6J-10J; the output power interval of the light source 20 corresponding to the sixth output level is 4J-8J.

That is, the light source 20 output power range corresponding to the ith skin tone category is 14J-18J; the output power range of the light source 20 corresponding to the II skin color type is 12J-16J; and so on.

In this embodiment, the interval values of the illumination output power ranges of the adjacent groups partially overlap.

Specifically, for example, the overlap interval value between the first output level and the second output level is 14J to 16J. With this design, the output power of the light source 20 can be better corresponding to the classification of skin color category, so as to prevent the strong light emitted by the flash tube from damaging the skin.

Referring to fig. 1, in the present embodiment, the photon beauty treatment apparatus further includes a boost module 60; the boost module 60 is electrically connected to the energy storage module 10 to charge the energy storage module 10.

The boost module 60 is internally provided with a boost circuit, one end of the boost circuit is connected with a built-in power supply in the automatic dimming terminal device, and the other end of the boost circuit is connected with the energy storage module 10 (capacitor), so that the boost module 60 can charge the capacitor rapidly, and the capacitor can be filled rapidly.

Referring to fig. 2, in the present embodiment, a method for adjusting the illumination output power of the beauty treatment apparatus is further provided, so as to adjust the intensity of illumination emitted from the light source 20. The method for adjusting the illumination output power of the beauty instrument comprises the following steps:

Step S100, skin color data of a user are obtained. Step S200, comparing the obtained skin color data of the user with pre-stored skin color parameters, and judging the skin color type of the user.

Step S300, according to the skin color category of the user, acquiring the illumination output power range corresponding to the skin color category.

And step S400, determining a final illumination output power value from the illumination output power range, and driving the light source according to the final illumination output power value.

Illustratively, the skin of the user is photographed or recorded in situ by the skin sensor 50 in the photon beauty treatment device to obtain skin complexion data of the user. Then, the obtained skin color data of the user are transmitted to the processor 40, the processor 40 analyzes and compares the skin color data of the user with pre-stored skin color type parameters pre-stored in the processor 40, and then sends a square wave control signal of a corresponding illumination output power range to the controller 30, and the controller 30 controls the output power of the light source 20 by regulating and controlling the waveform between the connection circuit between the energy storage module 10 and the light source 20.

By detecting the skin color of the user and selecting proper flash illumination intensity according to the detection result, the skin injury caused by improper selection of improper flash power by the user is effectively prevented, or the effective depilating or beautifying effect cannot be achieved, and the use experience of the user is greatly improved.

Referring to fig. 3, in this embodiment, step S200 compares the obtained skin color data of the user with pre-stored skin color parameters, and determines the skin color category of the user further includes:

Step S210, a plurality of skin color categories are prestored in a database, and each skin color category corresponds to skin color data in a preset range.

Step S220, comparing the obtained skin color data of the user with prestored parameters of each skin color category to determine the obtained skin color category of the user.

Illustratively, the skin complexion of the skin is divided into six major classes, namely, the I-th complexion class, the II-th complexion class, the III-th complexion class, the IV-th complexion class, the V-th complexion class and the VI-th complexion class according to the international standard. And pre-stores parameters for each skin tone category in a memory module of the processor 40. After the analysis module of the processor 40 receives the user skin tone data picked up by the skin sensor 50, the user skin parameters are compared with the pre-stored six skin tone category parameters in a traversal manner to determine the skin tone category of the user's skin.

Referring to fig. 4, in this embodiment, step S300 further includes, according to the skin color category of the user, acquiring the illumination output power range corresponding to the skin color category:

Step S310, presetting a plurality of groups of illumination output power ranges with different interval values.

Step S320, associating a skin color category with each illumination output power range.

Step S330, selecting a corresponding illumination output power range according to the corresponding determined user skin color category.

Specifically, in the processor 40, the illumination output ranges of the multiple groups of different interval values are respectively a first output level, a second output level, a third output level, a fourth output level, a fifth output level, and a sixth output level.

Correspondingly associating the first output energy level with the I skin color category; correspondingly associating the second output energy level with the II skin color class; the third output energy level is correspondingly associated with the III skin color category; the fourth output energy level is correspondingly associated with the IV skin color category; the fifth output energy level is correspondingly associated with the V skin color category; the sixth output energy level is associated with the VI skin tone class.

When the processor 40 analyzes that the skin of the user is in the type I skin color, the processor 40 outputs a first control signal to enable the controller 30 to control the output power of the light source 20 to be at a first output energy level. When the processor 40 analyzes that the skin of the user is in the II skin color category, the processor 40 outputs a second control signal, and the controller 30 can control the output power of the light source 20 to be at the second output energy level.

The specific steps of presetting illumination output power ranges of a plurality of groups of different interval values are as follows:

presetting a plurality of groups of different power intervals; corresponding each group of power intervals to one output energy level; and selecting a power interval value in a corresponding output energy level according to the corresponding determined user skin color category.

For example, the power intervals of the groups of light sources 20 are preset in the processor 40, for example: (14J, 18J), (12J, 16J), (10J, 14J), (8J, 12J), (6J, 10J), (4J, 8J). Then corresponding the first output energy level to the (14 j,18 j) light source 20 power interval; corresponding the second output energy level to an output power interval of (12 j,16 j); the third output level corresponds to (10J, 14J), and so on.

When the processor 40 determines that the user's skin tone is of the type I skin tone, the system then jumps to the first output level and selects a particular value in the power interval (14J, 18J) of the first output level as the output power of the light source 20 at that time.

The user can select the illumination output power in the illumination output power range by manually adjusting a button by the user or randomly selecting a calculation program to determine the final illumination output power value. The device effectively avoids the problems that the user misoperation causes the selection of unsuitable power, the beautifying or dehairing effect is affected, or the skin is damaged.

In summary, the application provides a method for adjusting illumination output power of a beauty treatment instrument and a system for adjusting illumination output power of the beauty treatment instrument, wherein the method for adjusting illumination output power of the beauty treatment instrument comprises the steps of obtaining skin color data of a user; comparing the obtained skin color data of the user with preset skin colors, and judging the skin color category of the obtained user; the illumination intensity irradiated onto the skin of the user is regulated according to the skin color type of the user. By detecting the skin color of the user and selecting proper flash illumination intensity according to the detection result, the skin injury caused by improper selection of improper flash power by the user is effectively prevented, or the effective depilating or beautifying effect cannot be achieved, and the use experience of the user is greatly improved.

While the invention has been described with reference to several exemplary embodiments, it is to be understood that the terminology used is intended to be in the nature of words of description and of limitation. As the present invention may be embodied in several forms without departing from the spirit or essential characteristics thereof, it should also be understood that the above-described embodiments are not limited by any of the details of the foregoing description, but rather should be construed broadly within its spirit and scope as defined in the appended claims, and therefore all changes and modifications that fall within the meets and bounds of the claims, or equivalences of such meets and bounds are therefore intended to be embraced by the appended claims.

Claims (10)

1. The method for adjusting the illumination output power of the beauty instrument is characterized by comprising the following steps of:

Acquiring skin color data of a user;

Comparing the obtained skin color data of the user with pre-stored skin color parameters, and judging the skin color type of the user;

Acquiring an illumination output power range corresponding to a skin color category according to the skin color category of a user;

and determining a final illumination output power value from the illumination output power range, and driving the light source according to the final illumination output power value.

2. The method of claim 1, wherein determining a final light output power value from the light output power range, and wherein determining the final light output power value comprises:

and determining a final illumination output power value according to the selection of the illumination output power value in the illumination output power range by the user.

3. The method for adjusting illumination output power of a beauty treatment instrument according to claim 1, wherein the obtaining skin color data of the user comprises:

An image of the skin of the user is acquired in situ by a skin tone sensor and skin tone data is extracted from the image of the skin.

4. The method for adjusting illumination output power of a beauty treatment instrument according to claim 1, wherein the step of comparing the acquired skin tone data of the user with pre-stored skin tone parameters and judging the skin tone category of the user comprises:

Pre-storing a plurality of skin color categories in a database, wherein each skin color category corresponds to skin color data in a preset range;

And comparing the obtained skin color data of the user with prestored parameters of each skin color category to determine the skin color category of the obtained user.

5. The method for adjusting illumination output power of a beauty treatment instrument according to claim 1, wherein the step of obtaining the illumination output power range corresponding to the skin tone category of the user comprises:

Presetting a plurality of groups of illumination output power ranges with different interval values;

Associating each group of illumination output power ranges with a skin color category;

and selecting a corresponding illumination output power range according to the corresponding determined user skin color category.

6. The method for adjusting illumination output power of a beauty treatment instrument according to claim 5, wherein the presetting of the illumination output power ranges of the plurality of sets of different interval values includes:

the interval values of the illumination output power ranges of adjacent groups partially overlap.

7. A photon beauty treatment instrument, comprising:

The energy storage module is used for storing electric energy;

the light source is electrically connected with the energy storage module and is used for emitting light rays irradiating the skin of the user according to the driving of the electric energy input by the energy storage module;

the skin sensor is used for acquiring skin color data of a user;

The control module is connected with the energy storage module and the light source; the control module is also connected with the skin sensor, and acquires an illumination output power range corresponding to the skin color category according to the skin color category of the user; and determining a final illumination output power value from the illumination output power range, and driving the light source according to the final illumination output power value.

8. The photon beauty treatment instrument according to claim 7, wherein the control module comprises:

The processor is connected with the skin sensor and is used for acquiring skin color data of a user for comparative analysis and sending out corresponding control signals;

the controller is arranged between the energy storage module and the connecting circuit of the light source, is connected with the processor, receives a control signal sent by the processor and controls the output power of the light source according to the control signal.

9. The photon beauty treatment instrument according to claim 8, wherein the processor comprises an analysis module and a storage module connected with each other, wherein the storage module is pre-stored with skin tone parameters of a plurality of different skin tone categories, and a plurality of sets of illumination output power ranges of different interval values; each group of illumination output power ranges is correspondingly associated with a skin color category;

The analysis module compares the user skin color data acquired by the skin sensor with parameters of skin color categories prestored in the storage module so as to judge the user skin color categories; and outputting corresponding illumination output power range control signals to the controller according to different skin color categories.

10. The photonic cosmetic apparatus of claim 7, further comprising a boost module; the boosting module is electrically connected with the energy storage module and is used for charging the energy storage module.