CN119607403A

CN119607403A - Control method of beauty mask, control device of beauty mask and beauty mask

Info

Publication number: CN119607403A
Application number: CN202411630336.6A
Authority: CN
Inventors: 蔡庆瑶
Original assignee: Guangdong Dimao Biotechnology Co ltd
Current assignee: Guangdong Dimao Biotechnology Co ltd
Priority date: 2023-12-29
Filing date: 2024-11-14
Publication date: 2025-03-14
Also published as: CN117653899A; CN119565023A

Abstract

The application relates to the technical field of beauty equipment, and provides a control method of a beauty mask, a control device of the beauty mask and the beauty mask. The control method of the beauty mask comprises the steps of acquiring a working signal of the beauty mask, wherein the step of acquiring the working signal of the beauty mask comprises the step of acquiring a mode signal of the beauty mask and the step of acquiring a position signal of the beauty mask. Based on the received working signal, the physiotherapy module of the beauty mask is controlled to work, and the physiotherapy module comprises a micro-current module, a radio frequency module, an ultrasonic module and an electric puncture module, wherein when one of the micro-current module, the radio frequency module, the ultrasonic module and the electric puncture module is in a working state, the other physiotherapy modules are not in the working state. According to the control method of the beauty mask, the beauty mask can control the micro-current module, the radio frequency module, the ultrasonic module and the electric puncture module to work in a plurality of different beauty functions, so that the diversified demands of users on beauty are met.

Description

Control method of cosmetic mask, control device of cosmetic mask and cosmetic mask

Technical Field

The present invention relates to the technical field of beauty equipment, and in particular, to a control method of a beauty mask, a control device of the beauty mask, and a beauty mask.

Background

With the progress of technology and the improvement of living standard of people, the beauty industry is experiencing unprecedented rapid development. Cosmetic masks, which are one of the cosmetic devices, have been widely accepted in the market in recent years due to their convenience and practicality. The beauty mask achieves various beauty effects of whitening, tightening, lifting, deep cleaning and the like through direct action on facial skin of a user.

However, although the existing cosmetic masks have achieved some success in the market place, the problem of relatively single function is increasingly pronounced. In particular, most commercial cosmetic masks often have only one or a few cosmetic functions. This functional limitation results in the user often having to purchase a variety of different types of masks according to their cosmetic needs during use, not only increasing the economic burden, but also reducing the ease of use.

In addition, as consumer expectations for cosmetic effects continue to increase, single-function cosmetic masks have become difficult to meet market demands for personalized, comprehensive cosmetic solutions. Many users wish to be able to enjoy the combined effects of multiple cosmetic techniques simultaneously in a single use to achieve a more pronounced and comprehensive cosmetic effect. Therefore, there is an urgent need in the market for a cosmetic mask that can integrate various cosmetic technologies to meet the diverse needs of users.

Disclosure of Invention

The present application is directed to solving at least one of the technical problems existing in the related art. Therefore, the application provides a control method of the face mask, which is used for solving the defect that the existing face mask has relatively single function.

The application also provides a control device of the beauty mask.

The application also provides a cosmetic mask.

According to an embodiment of the first aspect of the present application, a control method for a cosmetic mask includes:

Acquiring a working signal of the cosmetic mask, wherein the acquiring the working signal of the cosmetic mask comprises acquiring a mode signal of the cosmetic mask and acquiring a position signal of the cosmetic mask;

Based on the received working signals, the physiotherapy module of the beauty mask is controlled to work, and the physiotherapy module comprises a micro-current module, a radio frequency module, an ultrasonic module and an electric puncture module, wherein when one of the micro-current module, the radio frequency module, the ultrasonic module and the electric puncture module is in a working state, the rest physiotherapy modules are not in the working state.

According to the control method of the beauty mask, the beauty mask can control the micro-current module, the radio frequency module, the ultrasonic module and the electric puncture module to work in a plurality of different beauty functions, so that the diversified demands of users on beauty are met.

According to one embodiment of the present application, the controlling the operation of the physiotherapy module of the cosmetic mask based on the received operation signal, the physiotherapy module including a micro-current module, a radio frequency module, an ultrasonic module, and an electric puncture module includes:

Based on the mode signal, controlling corresponding one or more of the micro-current module, the radio frequency module, the ultrasonic module and the electric puncture module to work in a combined mode.

According to an embodiment of the present application, the controlling, based on the mode signal, a corresponding one or more combination of operations of the corresponding micro-current module, the radio frequency module, the ultrasound module, and the electric puncture module includes:

Based on the mode signal as a first mode signal, controlling the micro-current module, the radio frequency module, the ultrasonic module and the electric puncture module to work sequentially;

Controlling the micro-current module to work based on the mode signal as a second mode signal;

Controlling the radio frequency module to work based on the mode signal as a third mode signal;

controlling the ultrasonic module to work based on the mode signal being a fourth mode signal;

and controlling the electric puncture module to work based on the mode signal is a fifth mode signal.

and controlling the physical therapy module corresponding to the position of the cosmetic mask to work based on the position signal.

According to one embodiment of the application, the cosmetic mask is provided with a first cover part, a second cover part, a third cover part and a fourth cover part which are sequentially connected, wherein the first cover part corresponds to the region around the eyes of the face, the second cover part corresponds to the region of the bite muscles of the face, the third cover part corresponds to the region of the stature lines, the fourth cover part corresponds to the region around the mouth, the first cover part, the second cover part, the third cover part and the fourth cover part are all provided with the physiotherapy module,

The physical therapy module operation for controlling the position of the corresponding cosmetic mask based on the position signal comprises:

Based on the position signal as a first position signal, controlling the physiotherapy module corresponding to the first cover part, the physiotherapy module corresponding to the second cover part, the physiotherapy module corresponding to the third cover part and the physiotherapy module corresponding to the fourth cover part to work sequentially;

controlling the physiotherapy module corresponding to the first cover part to work based on the second position signal;

controlling the physiotherapy module corresponding to the second cover part to work based on the third position signal;

Controlling the physiotherapy module corresponding to the third cover part to work based on the fourth position signal;

and controlling the physiotherapy module corresponding to the fourth cover part to work based on the fifth position signal as the position signal.

A control device for a cosmetic mask according to an embodiment of the second aspect of the present application includes:

An acquisition unit for acquiring a working signal of the cosmetic mask;

The control unit is used for controlling the physiotherapy module of the beauty mask to work based on the received working signals, and the physiotherapy module comprises a micro-current module, a radio frequency module, an ultrasonic module and an electric puncture module.

According to a third aspect of the present application, there is provided a control method for a cosmetic mask, including:

the mask comprises a mask body, wherein the mask body comprises a flexible circuit board, the flexible circuit board is provided with a physiotherapy module, and the physiotherapy module comprises a micro-current module, a radio frequency module, an ultrasonic module and an electric puncture module;

the electrode group is arranged on the mask main body, the electrode group comprises a plurality of subassemblies, each subassembly comprises at least one pair of electrodes with opposite polarities, and the physiotherapy module is connected with the electrodes.

According to one embodiment of the application, when one of the micro-current module, the radio frequency module, the ultrasonic module and the electric puncture module is in an operating state, the rest of the physiotherapy modules are not in an operating state.

The micro-current module is suitable for outputting micro-current with a first preset frequency to any one or more pairs of electrodes with opposite polarities so as to drive the electrodes to output micro-current to skin, the radio-frequency module is suitable for outputting alternating current with a second preset frequency to any one or more pairs of electrodes with opposite polarities so as to drive the electrodes to output electromagnetic waves to skin, the ultrasonic module is suitable for outputting ultrasonic waves with a third preset frequency to any one or more pairs of electrodes with opposite polarities so as to drive the electrodes to output ultrasonic waves to skin, and the electric puncture module is suitable for outputting direct current with a fourth preset frequency to any one or more pairs of electrodes with opposite polarities so as to drive the electrodes to output puncture current to skin.

According to one embodiment of the present application, the mask body is provided with a first cover portion, a second cover portion, a third cover portion and a fourth cover portion connected in this order, the first cover portion corresponding to an periocular region of the face, the second cover portion corresponding to a masseter region of the face, the third cover portion corresponding to a stature line region, the fourth cover portion corresponding to a perioral region;

The electrode group comprises a plurality of sub-assemblies, each sub-assembly comprises at least one pair of electrodes with opposite polarities, each sub-assembly comprises a first electrode group, a second electrode group, a third electrode group and a fourth electrode group, the first electrode group is arranged on the first cover part, the second electrode group is arranged on the second cover part, the third electrode group is arranged on the third cover part, and the fourth electrode group is arranged on the fourth cover part.

According to one embodiment of the application, the first electrode set, the second electrode set, the third electrode set and the fourth electrode set are energized in sequence to form a massage electron flow.

Additional aspects and advantages of the application will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the application.

Drawings

In order to more clearly illustrate the invention or the technical solutions of the prior art, the following description will briefly explain the drawings used in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are some embodiments of the invention, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic step diagram of a control method of a cosmetic mask according to an embodiment of the present application.

Fig. 2 is a schematic view of a control device for a cosmetic mask according to an embodiment of the present application.

Fig. 3 is a schematic structural view of a wearing surface of a cosmetic mask according to an embodiment of the present application.

Fig. 4 is a schematic side view of the cosmetic mask provided by the embodiment of fig. 3.

Fig. 5 is a schematic elevational view of the cosmetic mask provided by the embodiment of fig. 3.

Fig. 6 is a schematic structural view of a cosmetic mask provided by an embodiment of the present application.

Fig. 7 is a schematic view of the exploded construction of the cosmetic mask provided by the embodiment of fig. 6.

Reference numerals:

100. mask body, 101, flexible circuit board, 102, inner cover, 103, outer cover, 104, through hole, 110, first cover part, 120, second cover part, 130, third cover part, 140, fourth cover part;

200. Electrode group, 210, first electrode group, 211, first positive plate, 212, first negative plate, 220, second electrode group, 221, second positive plate, 222, second negative plate, 230, third electrode group, 231, third positive plate, 232, third negative plate, 240, fourth electrode group, 241, fourth positive plate, 242, fourth negative plate;

300. An eye shield member;

400. an LED phototherapy module;

910. And 920, a control unit.

Detailed Description

Embodiments of the present application are described in further detail below with reference to the accompanying drawings and examples. The following examples are illustrative of the application but are not intended to limit the scope of the application.

In the description of the embodiments of the present application, it should be noted that the terms "center", "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the embodiments of the present application and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the embodiments of the present application. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In describing embodiments of the present application, it should be noted that, unless explicitly stated or limited otherwise, the terms "coupled" and "connected" should be interpreted broadly, and for example, the coupling may be fixed, or may be removable, where the fixed coupling may include a manner of integral coupling, may be mechanical, may be electrical, and may be direct, or may be indirect through an intermediary. The specific meaning of the above terms in embodiments of the present application will be understood in detail by those of ordinary skill in the art.

In embodiments of the application, unless expressly specified and limited otherwise, a first feature "up" or "down" on a second feature may be that the first and second features are in direct contact, or that the first and second features are in indirect contact via an intervening medium. Moreover, a first feature being "above," "over" and "on" a second feature may be a first feature being directly above or obliquely above the second feature, or simply indicating that the first feature is level higher than the second feature. The first feature being "under", "below" and "beneath" the second feature may be the first feature being directly under or obliquely below the second feature, or simply indicating that the first feature is less level than the second feature.

In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the embodiments of the present application. In this specification, schematic representations of the above terms are not necessarily directed to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, the different embodiments or examples described in this specification and the features of the different embodiments or examples may be combined and combined by those skilled in the art without contradiction.

Before describing the control method of the beauty mask according to the embodiment of the present invention, an explanation of an application scenario of the control method of the beauty mask is first required. The control method of the beauty mask can be applied to various types of beauty masks, such as full-face or half-face beauty masks, intelligent terminals such as smart phones, tablet computers and computers, and can be applied to a server connected with the beauty masks. The invention does not limit the application scene in particular, as long as the control method of the beauty mask can be carried and realized.

The control method of the cosmetic mask, the control device of the cosmetic mask, and the cosmetic mask of the present invention are described below with reference to fig. 1 to 7.

According to the embodiment of the application, the control method of the beauty mask comprises the steps 100 and 200.

Step 100, acquiring a working signal of the beauty mask, wherein the acquiring the working signal of the beauty mask comprises acquiring a mode signal of the beauty mask and acquiring a position signal of the beauty mask.

Step 200, controlling a physiotherapy module of the beauty mask to work based on the received working signal, wherein the physiotherapy module comprises a micro-current module, a radio frequency module, an ultrasonic module and an electric puncture module, and when one of the micro-current module, the radio frequency module, the ultrasonic module and the electric puncture module is in a working state, the rest physiotherapy modules are not in the working state.

In step 100, when a user activates the cosmetic mask, an acquisition unit 910 (described later) inside the mask first detects and acquires the operation signal of the mask. These operating signals include user operating instructions, mask operating mode selections, status information for the various functional modules, etc. By acquiring these working signals, the control unit 920 of the cosmetic mask can learn the cosmetic needs of the user and the current state of the mask, providing basis for the subsequent control operations.

In step 200, after the working signal is obtained, the control unit 920 (described later) controls the physiotherapy module inside the beauty mask to start working according to the indication of the signal. The cosmetic mask of the present invention includes a plurality of different types of physiotherapy modules, each module having a different cosmetic function. The micro-current module stimulates the skin by emitting weak current and promotes metabolism and blood circulation of skin cells, so that the effects of tightening the skin and weakening fine lines are achieved. The radio frequency module utilizes radio frequency energy to penetrate into skin tissues to stimulate the generation and rearrangement of collagen, so that the problems of skin relaxation, wrinkles and the like are effectively solved. The ultrasonic module deeply cleans skin pores through the vibration effect of ultrasonic waves, and promotes the absorption of nutrient substances and the discharge of metabolic wastes. The electric puncture module utilizes tiny current pulses to penetrate through the surface layer of the skin, promote the permeation of medicines and the absorption of nutrient substances, and simultaneously stimulate the regeneration and repair of skin cells.

The control unit 920 may independently activate these physiotherapy modules according to the user's cosmetic needs and the choice of the working mode of the cosmetic mask, providing personalized cosmetic services to the user.

By the control method of the beauty mask, a user can enjoy more comprehensive and personalized beauty experience. On one hand, the physiotherapy modules can be complemented to improve the beautifying effect, and on the other hand, the user can select the working mode and the functional module suitable for the user according to the requirements and the preference of the user, so that personalized beautifying and maintenance are realized.

According to one embodiment of the application, when one of the micro-current module, the radio frequency module, the ultrasonic module and the electric puncture module is in an operating state, the rest of the physiotherapy modules are not in an operating state. In other words, only one type of physiotherapy module in the micro-current module, the radio frequency module, the ultrasonic module and the electric puncture module works at the same time, so that the full energy output of each module can be ensured during the working, and the optimal beautifying effect is achieved. Meanwhile, mutual interference generated by the simultaneous operation of a plurality of modules is avoided.

In step 100, the mode signal refers to a cosmetic mask mode of operation selected by the user through the control panel of the mask, the cell phone APP, or other interactive means. Specifically, the user's input may be captured by interactive elements such as buttons, touch screens, etc. on the sensor or control panel. The purpose of the mode signal is to determine which particular physiotherapy module (e.g., microcurrent module, radio frequency module, ultrasound module, or electrical puncture module) the user wishes to activate. When the user selects a specific operation mode, a corresponding signal is transmitted to the control unit 920, and the control unit 920 determines which of the physiotherapy modules should be activated according to the signal.

In step 100, the position signal refers to specific position information of the cosmetic mask on the face of the user. The purpose of the position signal is to ensure that the physiotherapy module of the cosmetic mask can act accurately on the target area.

According to one embodiment of the present application, based on the received operation signal, the physiotherapy module of the cosmetic mask is controlled to operate, the physiotherapy module including the micro-current module, the radio frequency module, the ultrasound module and the electric puncture module including step 210.

Step 210, based on the mode signal, controlling one or more corresponding micro-current module, radio frequency module, ultrasonic module and electric puncture module to work in combination.

In step 210, the mode signal is a specific operating mode selected by the user through the control interface of the mask, which determines which therapy module or modules should be activated. According to the mode signal selected by the user, the control unit 920 activates only one corresponding physiotherapy module. The combination work refers to that different physiotherapy modules are used in different time periods in a treatment period. For example, one treatment cycle includes microcurrent treatment for 1 minute followed by radio frequency treatment for 1 minute.

According to one embodiment of the present application, controlling the corresponding one or more combination operations of the corresponding micro-current module, the radio frequency module, the ultrasound module, and the electro-puncture module based on the mode signal includes step 211, step 212, step 213, step 214, and step 215.

Step 211, based on the mode signal being the first mode signal, controlling the micro-current module, the radio frequency module, the ultrasonic module and the electric puncture module to work sequentially.

And 212, controlling the micro-current module to work based on the mode signal being the second mode signal.

And 213, controlling the radio frequency module to work based on the mode signal being the third mode signal.

Step 214, controlling the operation of the ultrasonic module based on the mode signal being the fourth mode signal.

Step 215, controlling the operation of the electric puncture module based on the mode signal being the fifth mode signal.

In step 211, the first mode signal is a comprehensive cyclic treatment mode, wherein the micro-current module, the radio frequency module, the ultrasound module and the electro-puncture module are sequentially operated in a certain sequence and time interval. After receiving the first mode signal, the control unit 920 activates and switches the physiotherapy modules according to a predetermined sequence and schedule. For example, the microcurrent module is first activated to operate for a period of time, then switched to the radio frequency module, then the ultrasound module, and finally the electrical puncture module. The operating time and switching sequence of each module can be set according to the treatment requirements. In one embodiment, each of the microcurrent module, the radio frequency module, the ultrasound module, and the electroporation module is operated for 1 minute.

In step 212, the second mode signal is a treatment mode that exclusively uses the microcurrent module. After receiving the second mode signal, the control unit 920 activates only the micro-current module, and may adjust its output according to parameters (such as intensity, frequency, etc.) set by the user.

In step 213, the third mode signal is a treatment mode that exclusively uses the radio frequency module. After receiving the third mode signal, the control unit 920 activates only the rf module, and may adjust its output according to parameters (such as intensity, frequency, etc.) set by the user.

In step 214, the fourth mode signal is a treatment mode that exclusively uses the ultrasound module. After receiving the fourth mode signal, the control unit 920 activates only the ultrasound module, and may adjust its output according to parameters (such as intensity, frequency, etc.) set by the user.

In step 215, the fifth mode signal is a treatment mode that exclusively uses the electrical puncture module. After receiving the fifth mode signal, the control unit 920 activates only the electric puncture module, and may adjust its output according to parameters (such as intensity, frequency, etc.) set by the user.

According to one embodiment of the present application, based on the received operation signal, the physiotherapy module of the cosmetic mask is controlled to operate, the physiotherapy module including the micro-current module, the radio frequency module, the ultrasound module and the electric puncture module including step 220.

Step 220, based on the position signals, controlling the physical therapy module at the position of the corresponding cosmetic mask to work.

In step 220, the position signal is specified by the user via a control interface of the mask or otherwise, indicating which site or sites the therapy module should be activated. The control unit 920 recognizes a region or a portion designated by the user according to the received position signal, and activates a physiotherapy module corresponding to the region or the portion accordingly.

According to an embodiment of the present application, the cosmetic mask is provided with a first cover part 110, a second cover part 120, a third cover part 130 and a fourth cover part 140 connected in sequence, the first cover part 110 corresponds to the periocular region of the face, the second cover part 120 corresponds to the masseter region of the face, the third cover part 130 corresponds to the stature line region, the fourth cover part 140 corresponds to the perioral region, the first cover part 110, the second cover part 120, the third cover part 130 and the fourth cover part 140 are each provided with a physiotherapy module, and the physiotherapy module work of controlling the position of the corresponding cosmetic mask based on the position signal comprises steps 221, 222, 223, 224 and 225.

Step 221, controlling the physiotherapy module corresponding to the first cover part 110, the physiotherapy module corresponding to the second cover part 120, the physiotherapy module corresponding to the third cover part 130 and the physiotherapy module corresponding to the fourth cover part 140 to operate sequentially based on the position signal as the first position signal.

Step 222, controlling the operation of the physiotherapy module corresponding to the first cover part 110 based on the second position signal as the position signal.

Step 223, controlling the operation of the physiotherapy module corresponding to the second cover part 120 based on the third position signal.

Step 224, controlling the physiotherapy module corresponding to the third cover 130 to work based on the fourth position signal.

Step 225, controlling the physiotherapy module corresponding to the fourth cover part 140 to work based on the fifth position signal as the position signal.

In step 221, the first position signal is in full face or cyclic treatment mode, wherein the physiotherapy modules of the first cover part 110 (periocular region), the second cover part 120 (masseter region), the third cover part 130 (stature line region) and the fourth cover part 140 (perioral region) are sequentially operated in a certain order and at certain time intervals.

After receiving the first position signal, the control unit 920 activates and switches the physiotherapy modules of the cover parts according to a preset sequence and schedule. For example, the physiotherapy module of the first cover part 110 may be activated for a period of time, then switched to the second cover part 120, followed by the third cover part 130 and finally the fourth cover part 140. The operating time and switching sequence of each cover can be set according to the treatment requirements.

It can be appreciated that the physiotherapy modules of the first cover part 110 (periocular region), the second cover part 120 (masseter region), the third cover part 130 (stature line region) and the fourth cover part 140 (perioral region) can work sequentially according to a certain sequence and time interval to form a circumferential massage flow for the user, so that the use experience of the user is greatly improved.

In step 222, the second position signal selects a treatment mode specific to the periocular region for the user. After receiving the second position signal, the control unit 920 activates only the physiotherapy module corresponding to the first cover part 110, and adjusts its output according to the parameters (such as intensity, frequency, etc.) set by the user.

In step 223, the third position signal selects a treatment mode for the user that is specific to the region of the bite muscle. After receiving the third position signal, the control unit 920 activates only the physiotherapy module corresponding to the second cover part 120, and adjusts its output according to the parameters (such as intensity, frequency, etc.) set by the user.

In step 224, the fourth position signal selects a treatment mode specific to the french area for the user. After receiving the fourth position signal, the control unit 920 activates only the physiotherapy module corresponding to the third cover part 130, and adjusts its output according to the parameters (such as intensity, frequency, etc.) set by the user.

In step 225, the fifth position signal selects a treatment mode for the user that is specific to the peri-mouth region. After receiving the fifth position signal, the control unit 920 activates only the physiotherapy module corresponding to the fourth cover part 140, and adjusts its output according to the parameters (such as intensity, frequency, etc.) set by the user.

According to one embodiment of the present application, the operation time of the physiotherapy module corresponding to the first cover part 110 is a first preset time period, the operation time of the physiotherapy module corresponding to the second cover part 120 is a second preset time period, the operation time of the physiotherapy module corresponding to the third cover part 130 is a third preset time period, the operation time of the physiotherapy module corresponding to the fourth cover part 140 is a fourth preset time period, and the physiotherapy module of each cover part (the first cover part 110, the second cover part 120, the third cover part 130 and the fourth cover part 140) is operated after the operation of the physiotherapy module of the next cover part is completed by a preset interval time period.

The first preset duration may be set according to the characteristics of the skin in the periocular region and the treatment requirement, and after the treatment of the first cover 110 is completed, a preset interval duration needs to be waited to ensure that the periocular region has enough rest time, and at the same time, other regions of the face are ready.

The second predetermined duration may be set for specific treatment requirements of the bite muscle region, and there may be a predetermined interval duration after the treatment of the second mask portion 120 is completed, so as to ensure that the bite muscle region has enough rest time and prepare other regions of the face.

The third predetermined duration may be set for the specific treatment requirement of the french area, and after the treatment of the third cover 130 is completed, there may also be a predetermined interval duration to ensure that the french area has enough rest time and other areas of the face are ready.

The fourth preset duration may be set for the specific treatment requirements of the peri-mouth area, and after the treatment of the fourth cover 140 is completed, there may also be a preset interval duration to ensure that the peri-mouth area has enough rest time, and to prepare other areas of the face.

In one embodiment, the first preset time period, the second preset time period, the third preset time period, the fourth preset time period, and the preset interval time period are all 2 seconds.

The control device of the cosmetic mask provided by the invention is described below, and the control device of the cosmetic mask described below and the control method of the cosmetic mask described above can be referred to correspondingly.

The control device of the beauty mask comprises an acquisition unit 910 and a control unit 920, wherein the acquisition unit 910 is used for acquiring a working signal of the beauty mask, and the control unit 920 is used for controlling a physiotherapy module of the beauty mask to work based on the received working signal, and the physiotherapy module comprises a micro-current module, a radio frequency module, an ultrasonic module and an electric puncture module.

According to the control device of the beauty mask, disclosed by the embodiment of the application, the micro-current module, the radio frequency module, the ultrasonic module and the electric puncture module can be controlled to work with a plurality of different beauty functions, so that the diversified requirements of users on beauty are met.

In one embodiment, the acquisition unit 910 includes a first acquisition unit 910 and a second acquisition unit 910, the first acquisition unit 910 configured to acquire a mode signal of the cosmetic mask. The second acquisition unit 910 is used to acquire a position signal of the cosmetic mask.

In one embodiment, the control unit 920 includes a first control unit 920, where the first control unit 920 is configured to control a corresponding one or more of the micro-current module, the radio frequency module, the ultrasound module, and the electrical puncture module to operate in combination based on the mode signal.

In one embodiment, the first control unit 920 is configured to control the micro-current module, the radio frequency module, the ultrasound module, and the electric puncture module to operate sequentially based on the mode signal being a first mode signal, and to control the micro-current module to operate based on the mode signal being a second mode signal, and to control the radio frequency module to operate based on the mode signal being a third mode signal, and to control the ultrasound module to operate based on the mode signal being a fourth mode signal, and to control the electric puncture module to operate based on the mode signal being a fifth mode signal.

In one embodiment, the control unit 920 includes a second control unit 920, the second control unit 920 for controlling the operation of the physiotherapy module of the position of the corresponding cosmetic mask based on the position signal.

In one embodiment, the second control unit 920 is configured to control the physiotherapy module corresponding to the first cover part 110, the physiotherapy module corresponding to the second cover part 120, the physiotherapy module corresponding to the third cover part 130, and the physiotherapy module corresponding to the fourth cover part 140 to operate sequentially based on the position signal being the first position signal, and to control the physiotherapy module corresponding to the first cover part 110 to operate based on the position signal being the second position signal, and to control the physiotherapy module corresponding to the second cover part 120 to operate based on the position signal being the third position signal, and to control the physiotherapy module corresponding to the third cover part 130 to operate based on the position signal being the fourth position signal, and to control the physiotherapy module corresponding to the fourth cover part 140 to operate based on the position signal being the fifth position signal.

Note that, the first control unit 920 and the second control unit 920 may be separate components, or may be the same component having two control functions, which is not particularly limited herein.

The following describes the cosmetic mask provided by the present invention, and the cosmetic mask described below and the control method of the cosmetic mask described above may be referred to correspondingly to each other.

According to the beauty mask disclosed by the embodiment of the application, the control method applied to the beauty mask comprises a mask main body 100 and an electrode group 200, wherein the mask main body 100 comprises a flexible circuit board 101, the flexible circuit board 101 is provided with a physiotherapy module, the physiotherapy module comprises a micro-current module, a radio frequency module, an ultrasonic module and an electric puncture module, the electrode group 200 is arranged on the mask main body 100, the electrode group 200 comprises a plurality of subassemblies, each subassembly comprises at least one pair of electrodes with opposite polarities, and the physiotherapy module is connected with the electrodes.

It will be appreciated that the flexible circuit board 101 is a flexible, foldable and less fragile circuit board, and the mask body 100 may be configured as a flexible structure, and in combination with the flexible circuit board 101, so that each electrode can better abut against the face, so as to improve the stability of the electrode contacting the skin of the face.

The flexible circuit board 101 is provided with a physiotherapy module, and the physiotherapy module comprises a micro-current module, a radio frequency module, an ultrasonic module and an electric puncture module, which have different treatment principles and effects, and the details can be referred to above without further description.

The electrode assembly 200 is made up of several subassemblies, each subassembly including at least one pair of electrodes of opposite polarity. The electrodes are connected to the therapy module by flexible circuit board 101, which when activated, delivers corresponding therapeutic energy to the facial skin.

In this embodiment, the acquiring unit 910 and the control unit 920 may be disposed on the flexible circuit board 101, and the physiotherapy module may control the beauty mask by combining the control method of the beauty mask with the acquiring unit 910 and the control unit 920, so as to achieve an efficient beauty physiotherapy effect.

It is understood that each physiotherapy module has its specific therapeutic objectives and effects. For example, microcurrent modules are mainly used for lifting hair, radio frequency modules for deep heating and collagen stimulation, ultrasound modules for deep cleaning and lymphatic drainage, and electrical puncture modules for promoting nutrient absorption. By activating each of the therapy modules individually, more accurate and effective treatment can be ensured. Different physiotherapy modules may generate different types of energy (such as current, radio frequency waves, ultrasonic waves and the like), and when one of the micro-current module, the radio frequency module, the ultrasonic module and the electric puncture module is in a working state, the other physiotherapy modules are not in the working state, so that mutual interference can be avoided.

Although each therapy module is individually activated, the user may experience switching between different modules throughout the course of treatment, thereby achieving personalized treatment.

According to one embodiment of the application, the microcurrent module is adapted to output a microcurrent of a first preset frequency to any one or more pairs of electrodes of opposite polarity to drive the electrodes to output a microcurrent to the skin.

It is understood that the microcurrent module outputs a microcurrent of a first preset frequency to any one or more pairs of oppositely polarized electrodes. The micro-current is conducted to the skin through the electrodes to stimulate the muscle layer and the dermis layer to generate a contraction effect, thereby achieving the effect of lifting tension. At the same time, the microcurrent can promote blood circulation and increase the luster and elasticity of the skin.

In one embodiment, the first preset frequency is 10Hz-100Hz, the microcurrent module can sequentially increase the initial frequency of the pulse current from 10Hz to 100Hz, when reaching 100Hz, the pulse current with the initial frequency is output to the electrode again, or the initial frequency of the pulse current can be sequentially reduced from 100Hz, and when reaching 10Hz, the pulse current with the initial frequency is output to the electrode again.

Of course, the first preset frequency of the micro-current module in the working process may be unchanged, and there is no specific limitation herein, as long as the first preset frequency is within the range of 10Hz-100 Hz.

According to one embodiment of the application, the radio frequency module is adapted to output an alternating current of a second preset frequency to any one or more pairs of electrodes of opposite polarity to drive the electrodes to output electromagnetic waves to the skin.

It will be appreciated that the rf module outputs ac power at a second predetermined frequency to any one or more pairs of oppositely polarized electrodes. These alternating currents are converted into electromagnetic waves by the electrodes, penetrate the skin surface layer, act on the dermis layer, and produce a thermal effect. The thermal effect can stimulate collagen regeneration and recombination, thereby improving skin firmness and elasticity, and reducing wrinkles and sagging.

In one embodiment, the second preset frequency is 80KHz-1MHz, and the radio frequency module may increase the initial frequency of the pulse current from 80KHz to 1MHz in sequence, or decrease the initial frequency of the pulse current from 1 KHz to 80KHz in sequence.

Of course, the second preset frequency of the radio frequency module in the working process can also be kept unchanged, and the second preset frequency is not particularly limited herein, as long as the second preset frequency is within the range of 80KHz-1 MHz.

According to one embodiment of the application, the ultrasound module is adapted to output ultrasound waves of a third preset frequency to any one or more pairs of electrodes of opposite polarity to drive the electrodes to output ultrasound waves to the skin.

It will be appreciated that the ultrasound module outputs ultrasound waves of a third preset frequency to any one or more pairs of oppositely polarized electrodes. The ultrasonic waves are conducted to the skin through the electrodes, creating a vibratory effect. The vibration can penetrate skin surface layer, act on dermis layer and subcutaneous tissue, promote circulation of blood and lymph fluid, and accelerate discharge of metabolic waste, thereby achieving deep cleaning and lymph toxin expelling effects.

In one embodiment, the third preset frequency is 60KHz-1MHz, and the ultrasonic module can sequentially increase the initial frequency of the current from 60KHz to 1MHz, and can also sequentially decrease the initial frequency of the current from 1MHz to 60 KHz.

Of course, the third preset frequency of the ultrasonic module in the working process can also be kept unchanged, and the third preset frequency is not particularly limited herein, as long as the third preset frequency is within the range of 60KHz-1 MHz.

According to one embodiment of the application, the electro-penetration module is adapted to output a direct current of a fourth preset frequency to any one or more pairs of electrodes of opposite polarity to drive the electrodes to output a penetration current to the skin.

It will be appreciated that the electro-puncture module outputs a fourth predetermined frequency of direct current to any one or more pairs of oppositely polarized electrodes. This direct current produces tiny current pulses through the electrodes that act on the top and dermis of the skin. The current pulse can open a tiny channel of the skin, and promote the absorption of nutrient components. Meanwhile, the electric puncture module can be combined with the micro-needle treatment, and nutrient components are led into the deep skin through the micro-needle, so that the treatment effect is further improved.

In one embodiment, the fourth preset frequency is 10Hz-1000Hz, the electric puncture module can sequentially increase the initial frequency of the pulse current from 10Hz to 1000Hz, when reaching 1000Hz, the pulse current with the initial frequency is output to the electrode again, and when reaching 10Hz, the pulse current with the initial frequency is output to the electrode again, the initial frequency of the pulse current can be reduced sequentially from 100 Hz.

Of course, the fourth preset frequency of the puncture module in the working process may be unchanged, and there is no specific limitation herein, as long as the fourth preset frequency is within the range of 10Hz-100 Hz.

According to the embodiment of the application, the cosmetic mask comprises a mask main body 100 and an electrode group 200, wherein the mask main body 100 is provided with a first mask part 110, a second mask part 120, a third mask part 130 and a fourth mask part 140 which are sequentially connected, the first mask part 110 corresponds to the periocular region of the face, the second mask part 120 corresponds to the masseter region of the face, the third mask part 130 corresponds to the french region, the fourth mask part 140 corresponds to the perioral region, the electrode group 200 comprises a plurality of subassemblies, each subassembly comprises at least one pair of electrodes with opposite polarities, each subassembly comprises a first electrode group 210, a second electrode group 220, a third electrode group 230 and a fourth electrode group 240, the first electrode group 210 is arranged on the first mask part 110, the second electrode group 220 is arranged on the second mask part 120, the third electrode group 230 is arranged on the third mask part 130, and the fourth electrode group 240 is arranged on the fourth mask part 140.

According to the beauty mask provided by the embodiment of the application, the sub-components of the electrode group 200 are distributed in the periocular region, the masseter region, the french region and the perioral region in a targeted manner, so that targeted physiotherapy can be performed on the positions, and an accurate and effective beauty effect can be obtained.

It will be appreciated that the first mask portion 110 corresponds to the periocular region of the face and may be used to relieve eye fatigue, reduce fine wrinkles, etc. The second mask portion 120 corresponds to the region of the facial bite muscle and may be used to tighten the contours of the face, reduce bite muscle hypertrophy, and the like. The third cover 130 corresponds to the grain area and may be used to lighten grains, improve facial skin elasticity, and the like. The fourth cover part 140 corresponds to a peripheral region of the mouth, and can be used to improve corner sagging of the mouth, reduce fine wrinkles, and the like. Through the electric stimulation of different facial areas, the effects of beautifying, tightening, lifting and the like are achieved.

The electrode assembly 200 is made up of a plurality of subassemblies, each subassembly containing at least one pair of oppositely polarized electrodes. The sub-assembly includes a first electrode set 210, a second electrode set 220, a third electrode set 230, and a fourth electrode set 240, which respectively correspond to the four mask portions of the mask body 100, and are distributed in critical areas of the face such as the eyes, the bite muscles, the statures, the mouth circumference, and the like, so as to ensure the accurate and effective physiotherapy effect.

The first cover 110, the second cover 120, the third cover 130, and the fourth cover 140 are each provided with a shape that closely conforms to the contour of the face, so that the electrodes are bonded to the face.

According to one embodiment of the application, each subassembly can output a microcurrent through a microcurrent module of the cosmetic mask, the voltage of the electric signal of the microcurrent module being between 5V and 100V.

In one embodiment, the output voltage of the micro-current module at the first housing portion 110 is 26.30V, the output voltage of the micro-current module at the second housing portion 120 is 46.23V, the output voltage of the micro-current module at the third housing portion 130 is 39.68V, and the output voltage of the micro-current module at the second housing portion 120 is 33.00V.

According to one embodiment of the application, the electrical signal provides a frequency between 10-100Hz, wherein in a preferred embodiment the frequency of the electrical signal is 40Hz.

According to another embodiment, the electrical signal of the micro-current module provides a current between 0ua-60ua, 60ua-120ua, 120ua-180na and 180ua-1240 pa.

According to one embodiment of the present application, when one of the first electrode group 210, the second electrode group 220, the third electrode group 230 and the fourth electrode group 240 is in contact conduction with the face, the remaining electrode groups 200 are not in conduction.

It will be appreciated that when one of the electrode sets 200 (e.g., the first electrode set 210) is in contact with the face and is conductive, the remaining electrode sets 200 (e.g., the second electrode set 220, the third electrode set 230, and the fourth electrode set 240) are non-conductive. Only one area is activated during each physiotherapy, so that accurate physiotherapy on a specific area is realized, and the mutual influence among the first electrode set 210, the second electrode set 220, the third electrode set 230 and the fourth electrode set 240 is avoided, and current movement is avoided.

According to one embodiment of the present application, the first electrode set 210, the second electrode set 220, the third electrode set 230, and the fourth electrode set 240 are sequentially energized to form a massage electron flow.

It can be appreciated that when the first electrode set 210, the second electrode set 220, the third electrode set 230 and the fourth electrode set 240 are sequentially energized, the eyes, the massages, the grippies, the french marks and the mouth can sequentially feel that the massage electrons flow to work on the face and feel that the massage electrons circularly rotate along four positions of the face, so that the use experience of the user is improved.

According to one embodiment of the present application, the electrodes of the electrode set 200 protrude from the inner side of the mask body 100 facing the human face, and the electrode contact area of the second electrode set 220 is larger than the electrode contact areas of the first electrode set 210, the third electrode set 230 and the fourth electrode set 240.

It will be appreciated that the electrodes of the present embodiment protrude towards the skin of the face of the user, not only ensuring intimate contact between the electrodes and the skin of the user, but also enhancing the conduction efficiency of the current or signal.

It should be noted that, the muscle size and thickness of the masseter region are larger, while the muscle of the portion such as the eyes and lips is smaller and finer, the electrode contact area of the second electrode set 220 is larger than the electrode contact areas of the first electrode set 210, the third electrode set 230 and the fourth electrode set 240, and the larger conductive area can cover the whole region, so as to effectively promote the contraction and relaxation of the large muscle group, thereby achieving the overall effect of improving tension. Small area accurate care fine wrinkles: small muscles around eyes, french lines and corners of the mouth, thinner skin, small conductive areas can concentrate on stimulating the fine muscles of these specific parts, avoiding current dispersion, helping to alleviate local fine lines. This precise stimulation helps to reduce the production of fish tail, stature and corner of mouth lines.

According to one embodiment of the present application, the first electrode group 210 includes a first positive electrode tab 211 and a first negative electrode tab 212, the first positive electrode tab 211 is disposed on the upper side of the first cap portion 110, and the first negative electrode tab 212 is disposed on the lower side of the first cap portion 110.

It is understood that the first positive electrode tab 211 is disposed on the upper side of the first cover portion 110 (e.g. near the forehead or the eyebrow area), and the first negative electrode tab 212 is disposed on the lower side of the first cover portion 110 (e.g. near the pouch or the tail area). The first positive plate 211 is disposed on the upper side, and the first negative plate 212 is disposed on the lower side, so that current can flow from the first positive plate 211 to the first negative plate 212, and a directional current loop is formed. This directional current flow helps to concentrate the energy so that the current penetrates more efficiently through the skin layers to deep tissues.

According to one embodiment of the present application, the second electrode group 220 includes a second positive electrode tab 221 and a second negative electrode tab 222, the second positive electrode tab 221 is disposed on the upper side of the second cap portion 120, and the second negative electrode tab 222 is disposed on the lower side of the second cap portion 120.

It will be appreciated that the second positive plate 221 is located on the upper side of the second mask portion 120 (e.g., above the cheeks), while the second negative plate 222 is located on the lower side of the second mask portion 120 (e.g., below the cheeks). This arrangement is intended to cover the region of the bite muscle, providing a tightening and pulling effect. The second positive electrode tab 221 is disposed on the upper side and the second negative electrode tab 222 is disposed on the lower side, so that it is possible to ensure that current flows from the second positive electrode tab 221 to the second negative electrode tab 222, forming a directional current loop. This directional current flow helps to concentrate the energy so that the current penetrates more efficiently through the skin layers to deep tissues.

According to an embodiment of the present application, the third electrode group 230 includes a third positive electrode tab 231 and a third negative electrode tab 232, the third positive electrode tab 231 is disposed on the upper side of the third cap portion 130, and the third negative electrode tab 232 is disposed on the lower side of the third cap portion 130.

It will be appreciated that the third positive electrode tab 231 is disposed on the upper side of the third cap portion 130 (e.g., near the upper side of the nose wing), and the third negative electrode tab 232 is disposed on the lower side of the third cap portion 130 (e.g., near the upper side of the mouth corner). The third positive electrode tab 231 is disposed on the upper side and the third negative electrode tab 232 is disposed on the lower side, so that current can flow from the third positive electrode tab 231 to the third negative electrode tab 232, and a directional current loop is formed. This directional current flow helps to concentrate the energy so that the current penetrates more efficiently through the skin layers to deep tissues.

According to an embodiment of the present application, the fourth electrode group 240 includes a fourth positive electrode sheet 241 and a fourth negative electrode sheet 242, the fourth positive electrode sheet 241 is disposed on the upper side of the fourth cap portion 140, and the fourth negative electrode sheet 242 is disposed on the lower side of the fourth cap portion 140.

It will be appreciated that the fourth positive electrode tab 241 is located on the upper side of the fourth cap portion 140 (e.g., near the upper portion of the person), while the fourth negative electrode tab 242 is located on the lower side of the fourth cap portion 140 (e.g., near the lower chin). The fourth positive electrode plate 241 is disposed at the upper side, and the fourth negative electrode plate 242 is disposed at the lower side, so that current can flow from the fourth positive electrode plate 241 to the fourth negative electrode plate 242, and a directional current loop is formed. This directional current flow helps to concentrate the energy so that the current penetrates more efficiently through the skin layers to deep tissues.

According to one embodiment of the present application, the number of the first electrode set 210, the second electrode set 220, the third electrode set 230, and the fourth electrode set 240 is two, and the first electrode set 210, the second electrode set 220, the third electrode set 230, and the fourth electrode set 240 are symmetrically distributed about the virtual human midline of the mask body 100.

The first electrode set 210 includes two electrode pairs disposed on the left and right sides of the periocular region of the mask body 100, and symmetrically distributed about the virtual midline of the mask body 100. The second electrode set 220 includes two electrode pairs disposed on the left and right sides of the bite muscle region of the mask body 100, respectively, and symmetrical about the virtual human midline. The third electrode set 230 comprises two electrode pairs, which are respectively positioned at the left side and the right side of the french area, and maintain symmetry with the virtual human midline. The fourth electrode set 240 comprises two electrode pairs respectively disposed on the left and right sides of the region around the mouth, and also follows the symmetry principle with the virtual human midline.

It can be appreciated that the two electrode pairs are symmetrically arranged about the virtual human midline of the mask body 100, which ensures uniformity of therapeutic or cosmetic effects, enables the left and right faces to receive physiotherapy of the cosmetic mask, and improves comfort and safety of use. The electrode pairs on the left side and the right side work simultaneously, so that facial muscles can be activated more effectively, blood circulation is promoted, metabolic process is accelerated, and better therapeutic effect or cosmetic effect is achieved.

According to one embodiment of the present application, the mask body 100 includes a flexible circuit board 101, an inner cover 102 and an outer cover 103, the inner cover 102 is disposed on one side of the mask body, which is attached to the face of the user, the flexible circuit board 101 is disposed between the inner cover 102 and the outer cover 103, the outer cover 103 is disposed on one side of the mask body, which is far away from the face of the user, the electrode assembly 200 is mounted on the flexible circuit board 101, the inner cover 102 is provided with a plurality of through holes 104, and the electrodes extend out of the through holes 104 to abut against the face of the user.

It will be appreciated that the flexible circuit board 101 is located between the inner housing 102 and the outer housing 103 and serves to connect the electrode assembly 200 to power and control signals. The flexible circuit board 101 has excellent flexibility and reliability, and can accommodate various bending and deformation of the mask body 100, ensuring stable connection between the electrode set 200 and the power supply while the cosmetic mask is attached to the face of the user.

The inner cover 102 is provided on one side of the face of the user and is made of soft and skin-friendly material to ensure comfort for the user during use. The inner cover 102 is provided with a plurality of through holes 104, and the through holes 104 are used for enabling the electrode set 200 to extend out and abut against the face of a user, so that a therapeutic effect is achieved.

The housing 103 is provided on a side away from the face of the user, and mainly serves to protect the flexible circuit board 101 and the electrode group 200. The housing 103 is typically made of a durable, waterproof material to ensure stability and durability of the device.

The electrode assembly 200 may be fixed to the flexible circuit board 101 by soldering or plugging. Each electrode group 200 includes a positive electrode sheet and a negative electrode sheet, which are connected to a power supply and control unit 920 through a circuit on the flexible circuit board 101. During the mounting process, the electrode sets 200 are precisely placed at predetermined locations on the flexible circuit board 101 to ensure that they properly protrude through the through-holes 104 of the inner cover 102 and abut the face of the user.

When the device is activated, the power supply provides energy forms such as current or radio frequency or ultrasound or electrical puncture to the electrode assembly 200 through the flexible circuit board 101. These energies are transferred to the user's face through the electrode assembly 200, stimulating skin cells, promoting collagen production, improving skin elasticity and firmness. Meanwhile, the electrode set 200 can promote facial blood circulation and accelerate metabolism of waste by transmitting electromagnetic waves with specific frequency, thereby achieving the effect of beauty or treatment.

According to one embodiment of the present application, the beauty mask includes a plurality of LED phototherapy modules 400, the plurality of LED phototherapy modules 400 being connected to the flexible circuit board 101, the plurality of LED phototherapy modules 400 being distributed corresponding to at least one of the first cover part 110, the second cover part 120, the third cover part 130, and the fourth cover part 140.

It can be appreciated that by precisely arranging the LED phototherapy module 400 and connecting the flexible circuit board 101 with high efficiency, the product can provide a comprehensive, uniform and deep phototherapy skin care experience for the user. The LED phototherapy modules 400 are connected through the flexible circuit board 101 and distributed at different portions of the mask. The modules can emit light with different wavelengths, such as red light, blue light, green light and the like, so as to stimulate skin cells, promote collagen generation, improve blood circulation and achieve the effects of beautifying and protecting skin.

In one embodiment, the light of a portion of the LED phototherapy module 400 has a wavelength between 500nm and 740nm, and in one preferred embodiment, the light of the LED phototherapy module 400 has a wavelength of 620nm. In this embodiment, the light of the LED phototherapy module 400 is provided by a light emitter having a power of 15-35 mw.

In one embodiment, the light of a portion of the LED phototherapy module 400 has a wavelength between 760nm and 900nm, and in one preferred embodiment, the light of the LED phototherapy module 400 has a wavelength of 830nm. In this embodiment, the light of the LED phototherapy module 400 is provided by a light emitter having a power of 10-25 mw.

In one embodiment, the light of a portion of the LED phototherapy module 400 has a wavelength between 400nm and 520nm, and in one preferred embodiment, the light of the LED phototherapy module 400 has a wavelength of 460nm. In this embodiment, the light of the LED phototherapy module 400 is provided by a light emitter having a power of 15-35 mw.

In order to obtain various effects on the facial skin or facial muscles, the cosmetic mask of the present application has several procedures of various functional combinations, including a first procedure, a second procedure, a third procedure, a fourth procedure, a fifth procedure, and a sixth procedure.

The first program, the combination of the LED phototherapy module 400 having a light wavelength of 500nm to 740nm and the LED phototherapy module 400 having a light wavelength of 760nm to 900nm, is used to stimulate proliferation of collagen and elastin, and promote blood circulation.

The second procedure, the combination of the LED phototherapy module 400 with the light wavelength of 400nm-520nm and the LED phototherapy module 400 with the light wavelength of 760nm-900nm, is used for improving skin repair ability, controlling grease, cleaning acne, resisting acne, and improving acne.

And a third procedure, in which the LED phototherapy module 400 having a light wavelength of 500nm to 740nm and the LED phototherapy module 400 having a light wavelength of 400nm to 520nm are combined, for promoting and improving blood circulation, tightening skin, and improving darkness.

And a fourth procedure, wherein the combination of the LED phototherapy module 400 with the light wavelength of 500-740 nm, the LED phototherapy module 400 with the light wavelength of 760-900 nm and the microcurrent module is used for stimulating the proliferation of collagen and elastin and promoting the blood circulation.

The fifth procedure, the combination of the LED phototherapy module 400 with the light wavelength of 400nm to 520nm, the LED phototherapy module 400 with the light wavelength of 760nm to 900nm, and the microcurrent module, is used for improving skin repair ability, controlling grease to clean acne, resisting acne, and improving acne.

The sixth procedure, the combination of the LED phototherapy module 400 having a light wavelength of 400nm to 520nm, the LED phototherapy module 400 having a light wavelength of 500nm to 740nm, the LED phototherapy module 400 having a light wavelength of 760nm to 900nm, and the microcurrent module, is used to promote and improve blood circulation, tighten skin, and improve darkness.

According to one embodiment of the present application, the cosmetic mask includes a micro-current module connected to the flexible circuit board 101, the micro-current module being connected to at least one of the first electrode set 210, the second electrode set 220, the third electrode set 230, and the fourth electrode set 240.

It is understood that the microcurrent module may promote micro-contraction of facial muscles, promote facial contours, improve skin relaxation, reduce fine lines and wrinkles, increase muscle elasticity and blood circulation, and restore facial vitality.

According to one embodiment of the present application, the cosmetic mask includes a radio frequency module connected to the flexible circuit board 101, the radio frequency module being connected to at least one of the first electrode set 210, the second electrode set 220, the third electrode set 230, and the fourth electrode set 240.

It can be appreciated that the rf module can stimulate collagen regeneration by heating the dermis layer, thereby achieving skin tightening and lifting, reducing deep wrinkles and fine lines, improving skin elasticity, stimulating fat cell metabolism, helping to partially thin and shape, and also helping to tighten skin, reduce orange peel tissue, and improve body lines.

According to one embodiment of the present application, the cosmetic mask includes an ultrasound module connected to the flexible circuit board 101, the ultrasound module being connected to at least one of the first electrode set 210, the second electrode set 220, the third electrode set 230, and the fourth electrode set 240.

It can be understood that the ultrasonic module can guide nutrient components (such as essence, humectant and the like) in the skin care product into the deep layer of the skin through ultrasonic high-frequency vibration, so that the absorption effect of the skin care product is improved. The ultrasonic module can also ultrasonically guide out and clean pores, helps to remove dirt and residues on the surface of the skin, effectively improves the problems of blackheads, acnes and the like, improves the metabolic capacity of the skin, enhances the glossiness and softness of the skin, and promotes blood circulation.

According to one embodiment of the present application, the cosmetic mask includes an electrical puncture module connected to the flexible circuit board 101, the electrical puncture module being connected to at least one of the first electrode set 210, the second electrode set 220, the third electrode set 230, and the fourth electrode set 240.

It can be understood that the electric puncture module can open the skin barrier, increase the permeability of the active ingredient in the skin care product, make it easier to be absorbed by skin, and the electric puncture module belongs to non-invasive leading-in mode, is applicable to sensitive skin, and the electric puncture module can effectively improve the absorption efficiency of essence, anti-aging product, reinforcing skin care effect.

According to one embodiment of the present application, the mask includes an eye mask member 300, wherein the eye mask member 300 is connected to the mask body 100, and the eye mask member 300 protrudes from the mask body 100 toward the inner side of the human face.

It will be appreciated that the eye shield assembly 300 is attached to the mask body 100 and protrudes from the mask body 100 on the inner side thereof facing the face. The eye shield 300 is made of soft and skin-friendly material, and can be tightly attached to the outline of eyes, so as to effectively block the physiotherapy light rays (such as the light rays of the LED phototherapy module 400) of the cosmetic mask from entering eyes and protect eyes of a user from light ray stimulation.

It should be noted that the above-mentioned embodiments are merely for illustrating the technical solution of the present invention, and not for limiting the same, and although the present invention has been described in detail with reference to the above-mentioned embodiments, it should be understood by those skilled in the art that the technical solution described in the above-mentioned embodiments may be modified or some technical features may be equivalently replaced, and these modifications or substitutions do not make the essence of the corresponding technical solution deviate from the spirit and scope of the technical solution of the embodiments of the present invention.

Claims

1. A method of controlling a cosmetic mask, comprising:

2. The method of claim 1, wherein the controlling the operation of the physiotherapy module of the beauty mask based on the received operation signal, the physiotherapy module including a micro-current module, a radio frequency module, an ultrasonic module, and an electric puncture module includes:

3. The method of claim 2, wherein controlling the operation of the corresponding one or more of the micro-current module, the radio frequency module, the ultrasound module, and the electro-puncture module in combination based on the mode signal comprises:

4. The method of claim 1, wherein the controlling the operation of the physiotherapy module of the beauty mask based on the received operation signal, the physiotherapy module including a micro-current module, a radio frequency module, an ultrasonic module, and an electric puncture module includes:

5. The method of claim 4, wherein the cosmetic mask is provided with a first cover portion, a second cover portion, a third cover portion, and a fourth cover portion connected in this order, the first cover portion corresponding to an periocular region of the face, the second cover portion corresponding to a masseter region of the face, the third cover portion corresponding to a stature line region, the fourth cover portion corresponding to a perioral region, the first cover portion, the second cover portion, the third cover portion, and the fourth cover portion each being provided with the physiotherapy module,

6. A control device for a cosmetic mask, comprising:

An acquisition unit for acquiring a working signal of the cosmetic mask;

7. A cosmetic mask, a control method for the cosmetic mask according to any one of claims 1 to 5, comprising:

8. The cosmetic mask of claim 7, wherein when one of the microcurrent module, the radio frequency module, the ultrasound module, and the electrical puncture module is in an operational state, the remaining physiotherapy modules are not in an operational state.

And/or the number of the groups of groups,

The micro-current module is suitable for outputting micro-current with a first preset frequency to any one or more pairs of electrodes with opposite polarities so as to drive the electrodes to output micro-current to skin, the radio frequency module is suitable for outputting alternating current with a second preset frequency to any one or more pairs of electrodes with opposite polarities so as to drive the electrodes to output electromagnetic waves to skin, the ultrasonic module is suitable for outputting ultrasonic waves with a third preset frequency to any one or more pairs of electrodes with opposite polarities so as to drive the electrodes to output ultrasonic waves to skin, and the electric puncture module is suitable for outputting direct current with a fourth preset frequency to any one or more pairs of electrodes with opposite polarities so as to drive the electrodes to output puncture current to skin.

9. The cosmetic mask of claim 7, wherein the mask body is provided with a first mask portion, a second mask portion, a third mask portion, and a fourth mask portion connected in this order, the first mask portion corresponding to an periocular region of the face, the second mask portion corresponding to a masseter region of the face, the third mask portion corresponding to a stature line region, the fourth mask portion corresponding to a perioral region;

10. The cosmetic mask of claim 9, wherein the first electrode set, the second electrode set, the third electrode set, and the fourth electrode set are energized in sequence to form a massage electron stream.