Cosmetic mask

Abstract

The utility model discloses the technical field of beauty equipment provides a kind of beauty mask, comprising: mask main body and electrode group, mask main body is equipped with sequentially connected first cover portion, second cover portion, third cover portion and fourth cover portion, first cover portion corresponds to the eye area of face, second cover portion corresponds to the masseter area of face, third cover portion corresponds to the marionette lines area, and fourth cover portion corresponds to the mouth area;Electrode group includes several subassemblies, and each group of subassemblies includes at least one pair of polarity opposite electrode, and subassembly includes the first electrode group arranged in first cover portion, the second electrode group arranged in second cover portion, the third electrode group arranged in third cover portion and the fourth electrode group arranged in fourth cover portion.The beauty mask of the application, through the targeted distribution of several subassemblies of electrode group in eye area, masseter area, marionette lines area and mouth area, can carry out targeted physiotherapy to the above-mentioned position, to obtain accurate and effective beauty effect.

Description

Technical Field

[0001] This utility model relates to the field of beauty equipment technology, and in particular to a beauty mask. Background Technology

[0002] With advancements in technology and improvements in living standards, the beauty industry is experiencing unprecedented rapid development. As a type of beauty device, beauty masks have gained widespread popularity in recent years due to their convenience and practicality. Beauty masks achieve various beauty effects such as whitening, firming, lifting, and deep cleansing through direct application to facial skin.

[0003] However, despite the success of existing beauty masks in the market, their limitations are becoming increasingly apparent. The condition of facial skin is complex and variable. Therefore, using a uniform treatment approach often fails to achieve optimal cosmetic results and may even lead to new skin problems due to improper treatment. Utility Model Content

[0004] This application aims to address at least one of the technical problems existing in the related art. To this end, this application proposes a beauty mask that overcomes the deficiency of existing beauty masks in lacking targeted treatment for different areas of the face.

[0005] The beauty mask proposed according to the embodiments of this application includes:

[0006] The mask body has a first cover, a second cover, a third cover and a fourth cover connected in sequence. The first cover corresponds to the periorbital area of ​​the face, the second cover corresponds to the masseter muscle area of ​​the face, the third cover corresponds to the nasolabial fold area, and the fourth cover corresponds to the periorbital area.

[0007] An electrode assembly includes several sub-assemblies, each sub-assembly including at least one pair of electrodes with opposite polarities. The sub-assemblies include a first electrode assembly, a second electrode assembly, a third electrode assembly, and a fourth electrode assembly. The first electrode assembly is located in the first cover portion, the second electrode assembly is located in the second cover portion, the third electrode assembly is located in the third cover portion, and the fourth electrode assembly is located in the fourth cover portion.

[0008] According to the embodiments of this application, the beauty mask uses several sub-components of an electrode group to be specifically distributed in the periorbital area, masseter muscle area, nasolabial fold area, and periorbital area, which can provide targeted physiotherapy to the above-mentioned areas, thereby achieving precise and effective beauty results.

[0009] According to one embodiment of this application, when one of the first electrode group, the second electrode group, the third electrode group, and the fourth electrode group is in contact with the face and conducts electricity, the other electrode groups are not conducting electricity.

[0010] According to one embodiment of this application, the first electrode group, the second electrode group, the third electrode group and the fourth electrode group are sequentially energized to form a massage electron flow.

[0011] According to one embodiment of this application, the electrodes of the electrode group protrude from the inner side of the mask body facing the face, and the electrode contact area of ​​the second electrode group is larger than the electrode contact areas of the first electrode group, the third electrode group and the fourth electrode group.

[0012] According to one embodiment of this application, the first electrode group includes a first positive electrode and a first negative electrode, the first positive electrode is disposed on the upper side of the first cover, and the first negative electrode is disposed on the lower side of the first cover;

[0013] And / or,

[0014] The second electrode group includes a second positive electrode and a second negative electrode. The second positive electrode is disposed on the upper side of the second cover, and the second negative electrode is disposed on the lower side of the second cover.

[0015] And / or,

[0016] The third electrode group includes a third positive electrode and a third negative electrode. The third positive electrode is disposed on the upper side of the third cover, and the third negative electrode is disposed on the lower side of the third cover.

[0017] And / or,

[0018] The fourth electrode group includes a fourth positive electrode and a fourth negative electrode. The fourth positive electrode is disposed on the upper side of the fourth cover, and the fourth negative electrode is disposed on the lower side of the fourth cover.

[0019] According to one embodiment of this application, the number of the first electrode group, the second electrode group, the third electrode group and the fourth electrode group are all two groups, and the first electrode group, the second electrode group, the third electrode group and the fourth electrode group are symmetrically distributed about the virtual midline of the mask body.

[0020] According to one embodiment of this application, the mask body includes a flexible circuit board, an inner cover, and an outer cover. The inner cover is disposed on the side that fits the user's face. The flexible circuit board is disposed between the inner cover and the outer cover. The outer cover is disposed on the side away from the user's face. The electrode assembly is mounted on the flexible circuit board. The inner cover has a plurality of through holes. The electrodes extend out of the through holes and abut against the user's face.

[0021] According to one embodiment of this application, a plurality of LED light therapy modules are included, the plurality of LED light therapy modules being connected to the flexible circuit board, and the plurality of LED light therapy modules being distributed corresponding to at least one of the first cover, the second cover, the third cover, and the fourth cover.

[0022] According to one embodiment of this application, a microcurrent module is included, the microcurrent module being connected to the flexible circuit board, and the microcurrent module being connected to at least one of the first electrode group, the second electrode group, the third electrode group, and the fourth electrode group;

[0023] And / or,

[0024] It includes a radio frequency module connected to the flexible circuit board, and the radio frequency module is connected to at least one of the first electrode group, the second electrode group, the third electrode group, and the fourth electrode group;

[0025] And / or,

[0026] It includes an ultrasound module connected to the flexible circuit board, and the ultrasound module is connected to at least one of the first electrode group, the second electrode group, the third electrode group, and the fourth electrode group;

[0027] And / or,

[0028] It includes an electropuncture module connected to the flexible circuit board, and the electropuncture module is connected to at least one of the first electrode group, the second electrode group, the third electrode group, and the fourth electrode group.

[0029] According to one embodiment of this application, an eye mask component is included, the eye mask component being connected to the mask body, and the eye mask component protruding from the inner side of the mask body facing the face.

[0030] Additional aspects and advantages of this 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 this application. Attached Figure Description

[0031] To more clearly illustrate the technical solutions in this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are some embodiments of this utility model. For those skilled in the art, other drawings can be obtained from these drawings without creative effort.

[0032] Figure 1 This is a schematic diagram of the wearing surface of the beauty mask provided in the embodiments of this application.

[0033] Figure 2 yes Figure 1 A side view of the beauty mask provided in the embodiment.

[0034] Figure 3 yes Figure 1 A schematic diagram of the front structure of the beauty mask provided in the embodiment.

[0035] Figure 4 This is a schematic diagram of the structure of the beauty mask provided in the embodiment of this application.

[0036] Figure 5 yes Figure 4 An exploded structural diagram of the beauty mask provided in the embodiment.

[0037] Figure label:

[0038] 100. Mask body; 101. Flexible circuit board; 102. Inner cover; 103. Outer cover; 104. Through hole; 110. First cover section; 120. Second cover section; 130. Third cover section; 140. Fourth cover section;

[0039] 200, Electrode group; 210, First electrode group; 211, First positive electrode; 212, First negative electrode; 220, Second electrode group; 221, Second positive electrode; 222, Second negative electrode; 230, Third electrode group; 231, Third positive electrode; 232, Third negative electrode; 240, Fourth electrode group; 241, Fourth positive electrode; 242, Fourth negative electrode;

[0040] 300. Eye mask components;

[0041] 400. LED phototherapy module. Detailed Implementation

[0042] The embodiments of this application will be described in further detail below with reference to the accompanying drawings and examples. The following examples are used to illustrate this application, but should not be used to limit the scope of this application.

[0043] In the description of the embodiments of this application, it should be noted that the terms "center," "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," and "outer," etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing the embodiments of this application and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on the embodiments of this application. In addition, the terms "first," "second," and "third" are used for descriptive purposes only and should not be construed as indicating or implying relative importance.

[0044] In the description of the embodiments of this application, it should be noted that, unless otherwise explicitly specified and limited, the terms "connected" and "linked" should be interpreted broadly. For example, they can refer to fixed connections or detachable connections, wherein a fixed connection can include an integral connection; it can be a mechanical connection or an electrical connection; it can be a direct connection or an indirect connection through an intermediate medium. Those skilled in the art can understand the specific meaning of the above terms in the embodiments of this application based on the specific circumstances.

[0045] In the embodiments of this application, unless otherwise expressly specified and limited, "above" or "below" the second feature can mean that the first feature is in direct contact with the second feature, or that the first feature is in indirect contact with the second feature through an intermediate medium. Furthermore, "above," "on top of," and "over" the second feature can mean that the first feature is directly above or diagonally above the second feature, or simply that the first feature is at a higher horizontal level than the second feature. "Below," "below," and "under" the second feature can mean that the first feature is directly below or diagonally below the second feature, or simply that the first feature is at a lower horizontal level than the second feature.

[0046] In the description of this specification, the references to terms such as "one embodiment," "some embodiments," "example," "specific example," or "some examples," etc., refer to specific features, structures, materials, or characteristics described in connection with that embodiment or example, which are included in at least one embodiment or example of the embodiments of this application. In this specification, the illustrative expressions of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the specific features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples. Moreover, without contradiction, those skilled in the art can combine and integrate the different embodiments or examples described in this specification, as well as the features of different embodiments or examples.

[0047] The following is combined Figures 1 to 5 Describe the beauty mask of this application.

[0048] Please refer to the beauty mask according to the embodiments of this application. Figures 1 to 3 The beauty mask includes: a mask body 100 and a motor assembly. The mask body 100 includes a flexible circuit board 101, which is equipped with a physiotherapy module. The physiotherapy module includes a microcurrent module, a radio frequency module, an ultrasound module, and an electropuncture module. An electrode assembly 200 is installed on the mask body 100. The electrode assembly 200 includes several sub-components, and each sub-component includes at least one pair of electrodes with opposite polarities. The physiotherapy module is connected to the electrodes.

[0049] Understandably, the flexible circuit board 101 is a circuit board that can be bent, folded and is not easily damaged. The mask body 100 can be set as a flexible structure, combined with the flexible circuit board 101, so that each electrode can better contact the face, thereby improving the stability of the electrode contact with the face skin.

[0050] The flexible circuit board 101 is equipped with a physiotherapy module, which includes a microcurrent module, a radio frequency module, an ultrasound module, and an electropuncture module. Each of them has different treatment principles and effects, which can be referred to above and will not be repeated here.

[0051] The electrode assembly 200 consists of several sub-assemblies, each including at least one pair of electrodes with opposite polarities. These electrodes are connected to the physiotherapy module via a flexible circuit board 101, and when the physiotherapy module is activated, the electrodes deliver corresponding therapeutic energy to the facial skin.

[0052] According to one embodiment of this application, when one of the microcurrent module, radio frequency module, ultrasound module and electropuncture module is in working condition, the other physiotherapy modules are not in working condition.

[0053] Understandably, each therapy module has its specific treatment goals and effects. For example, the microcurrent module is mainly used for lifting and firming, the radiofrequency module for deep heating and collagen stimulation, the ultrasound module for deep cleansing and lymphatic drainage, and the electropuncture module for promoting nutrient absorption. By activating each therapy module individually, more precise and effective treatment can be ensured. Different therapy modules may generate different types of energy (such as current, radiofrequency waves, ultrasound, etc.). By controlling the operation of one of the microcurrent, radiofrequency, ultrasound, and electropuncture modules while keeping the others inactive, mutual interference can be avoided.

[0054] Although each therapy module is activated individually, users can switch between different modules throughout the treatment process to achieve personalized treatment.

[0055] According to one embodiment of this application, the microcurrent module is adapted to output a microcurrent of a first preset frequency to any pair or more pairs of electrodes with opposite polarities, so as to drive the electrodes to output microcurrent to the skin.

[0056] Understandably, the microcurrent module outputs a microcurrent of a first preset frequency to any pair or more pairs of electrodes with opposite polarities. The microcurrent is conducted to the skin through the electrodes, stimulating the muscle layer and dermis, producing a contraction effect, thereby achieving a lifting and firming effect. Simultaneously, the microcurrent also promotes blood circulation, increasing the skin's radiance and elasticity.

[0057] In one embodiment, the first preset frequency is 10Hz-100Hz. The microcurrent module can increase the initial frequency of the pulse current sequentially from 10-100Hz, and when it reaches 100Hz, it can output the pulse current of the initial frequency to the electrode again. Alternatively, it can decrease the initial frequency of the pulse current sequentially starting from 100Hz, and when it reaches 10Hz, it can output the pulse current of the initial frequency to the electrode again.

[0058] Of course, the first preset frequency of the microcurrent module during operation can remain unchanged. There are no specific restrictions here, as long as the first preset frequency is within the range of 10Hz-100Hz.

[0059] According to one embodiment of this application, the radio frequency module is adapted to output a second preset frequency of alternating current to any pair or more pairs of electrodes with opposite polarities, so as to drive the electrodes to output electromagnetic waves to the skin.

[0060] Understandably, the radio frequency module outputs alternating current at a second preset frequency to any one or more pairs of electrodes with opposite polarities. This alternating current is converted into electromagnetic waves by the electrodes, penetrating the skin's surface and acting on the dermis to produce a thermal effect. This thermal effect can stimulate the regeneration and reorganization of collagen, thereby improving skin firmness and elasticity, and reducing wrinkles and sagging.

[0061] In one embodiment, the second preset frequency is 80KHz-1MHz. The RF module can increase the initial frequency of the pulse current sequentially from 80KHz to 1MHz, or decrease the initial frequency of the pulse current sequentially from 1MHz to 80KHz.

[0062] Of course, the second preset frequency of the RF module can remain unchanged during operation. There are no specific restrictions here, as long as the second preset frequency is within the range of 80KHz-1MHz.

[0063] According to one embodiment of this application, the ultrasound module is adapted to output ultrasound waves of a third preset frequency to any pair or more pairs of electrodes with opposite polarities, so as to drive the electrodes to output ultrasound waves to the skin.

[0064] Understandably, the ultrasound module outputs ultrasound waves of a third preset frequency to any one or more pairs of electrodes with opposite polarities. The ultrasound waves are conducted to the skin through the electrodes, generating a vibration effect. This vibration can penetrate the skin's surface, acting on the dermis and subcutaneous tissue, promoting blood and lymph circulation, and accelerating the removal of metabolic waste, thereby achieving deep cleansing and lymphatic detoxification.

[0065] In one embodiment, the third preset frequency is 60KHz-1MHz. The ultrasonic module can increase the initial frequency of the current sequentially from 60KHz to 1MHz, or decrease the initial frequency of the current sequentially from 1MHz to 60KHz.

[0066] Of course, the third preset frequency of the ultrasound module can remain unchanged during operation. There are no specific restrictions here, as long as the third preset frequency is within the range of 60KHz-1MHz.

[0067] According to one embodiment of this application, the electropuncture module is adapted to output a fourth preset frequency of direct current to any pair or more pairs of electrodes with opposite polarities to drive the electrodes to output a puncture current to the skin.

[0068] Understandably, the electropuncture module outputs a fourth preset frequency of direct current to any pair or more pairs of electrodes with opposite polarities. This direct current generates tiny current pulses through the electrodes, acting on the skin's epidermis and dermis. These current pulses open tiny channels in the skin, promoting the absorption of nutrients. Simultaneously, the electropuncture module can be combined with microneedling therapy, using microneedles to deliver nutrients deeper into the skin, further enhancing the treatment effect.

[0069] In one embodiment, the fourth preset frequency is 10Hz-1000Hz. The electropuncture module can sequentially increase the initial frequency of the pulse current from 10-1000Hz, and when it reaches 1000Hz, it can output the pulse current of the initial frequency to the electrode again. Alternatively, it can sequentially decrease the initial frequency of the pulse current starting from 100Hz, and when it reaches 10Hz, it can output the pulse current of the initial frequency to the electrode again.

[0070] Of course, the fourth preset frequency of the puncture module can remain unchanged during operation. There are no specific restrictions here, as long as the fourth preset frequency is within the range of 10Hz-100Hz.

[0071] The beauty mask according to the embodiments of this application includes a mask body 100 and an electrode assembly 200. The mask body 100 has a first cover portion 110, a second cover portion 120, a third cover portion 130 and a fourth cover portion 140 connected in sequence. The first cover portion 110 corresponds to the periorbital area of ​​the face, the second cover portion 120 corresponds to the masseter muscle area of ​​the face, the third cover portion 130 corresponds to the nasolabial fold area, and the fourth cover portion 140 corresponds to the periorbital area. The electrode assembly 200 includes several sub-assemblies. Each sub-assembly includes at least one pair of electrodes with opposite polarities. The sub-assemblies include a first electrode assembly 210, a second electrode assembly 220, a third electrode assembly 230 and a fourth electrode assembly 240. The first electrode assembly 210 is located in the first cover portion 110, the second electrode assembly 220 is located in the second cover portion 120, the third electrode assembly 230 is located in the third cover portion 130, and the fourth electrode assembly 240 is located in the fourth cover portion 140.

[0072] According to the embodiments of this application, the beauty mask, through the electrode group 200, has several sub-components specifically distributed in the periorbital area, masseter muscle area, nasolabial fold area and periorbital area, which can provide targeted physiotherapy to the above-mentioned areas, thereby obtaining precise and effective beauty effects.

[0073] Understandably, the first mask 110 corresponds to the eye area of ​​the face and can be used to relieve eye fatigue and reduce fine lines. The second mask 120 corresponds to the masseter muscle area of ​​the face and can be used to tighten facial contours and reduce masseter muscle hypertrophy. The third mask 130 corresponds to the nasolabial fold area and can be used to reduce nasolabial folds and improve facial skin elasticity. The fourth mask 140 corresponds to the mouth area and can be used to improve drooping corners of the mouth and reduce fine lines. By electrically stimulating different facial areas, effects such as beautification, tightening, and lifting are achieved.

[0074] The electrode assembly 200 consists of multiple sub-assemblies, each containing at least one pair of electrodes with opposite polarities. The sub-assemblies include a first electrode assembly 210, a second electrode assembly 220, a third electrode assembly 230, and a fourth electrode assembly 240, which correspond to the four covers of the mask body 100, respectively, and are specifically distributed in key facial areas such as around the eyes, masseter muscles, nasolabial folds, and around the mouth, ensuring precise and effective treatment results.

[0075] It should be noted that the first cover 110, the second cover 120, the third cover 130 and the fourth cover 140 are respectively provided with a shape that closely fits the facial contour, ensuring the fit between the electrode and the face.

[0076] According to one embodiment of this application, each sub-component can output a microcurrent through the microcurrent module of the beauty mask, and the voltage of the electrical signal of the microcurrent module is between 5V and 100V.

[0077] In one embodiment, the microcurrent module has an output voltage of 26.30V in the first cover 110, an output voltage of 46.23V in the second cover 120, an output voltage of 39.68V in the third cover 130, and an output voltage of 33.00V in the second cover 120.

[0078] According to one embodiment of this application, the electrical signal provides a frequency between 10-100Hz, and in one preferred embodiment, the frequency of the electrical signal is 40Hz.

[0079] According to another embodiment, the electrical signal of the microcurrent module provides currents between 0ua-60ua, 60ua-120ua, 120ua-180a, and 180ua-1240pa.

[0080] According to one embodiment of this 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 with the face and conducts electricity, the other electrode groups 200 are not conducting electricity.

[0081] Understandably, when one set of electrodes 200 (such as the first electrode set 210) comes into contact with and conducts electricity to the face, the other electrode sets 200 (such as the second, third, and fourth electrode sets 240) do not conduct electricity. This ensures that only one area is activated during each treatment, achieving not only precise treatment of a specific area but also avoiding mutual interference between the first electrode set 210, the second electrode set 220, the third electrode set 230, and the fourth electrode set 240, thus preventing current fluctuations.

[0082] According to one embodiment of this application, the first electrode group 210, the second electrode group 220, the third electrode group 230 and the fourth electrode group 240 are sequentially energized to form a massage electron flow.

[0083] Understandably, when the first electrode group 210, the second electrode group 220, the third electrode group 230 and the fourth electrode group 240 are energized in sequence, the area around the eyes, masseter muscles, nasolabial folds and around the mouth can feel the massage electron flow working on the face in sequence, and feel the physical therapy that circulates along the four positions of the face, thereby improving the user experience.

[0084] According to one embodiment of this application, the electrodes of the electrode group 200 protrude from the inner side of the mask body 100 facing the face, and the electrode contact area of ​​the second electrode group 220 is larger than the electrode contact areas of the first electrode group 210, the third electrode group 230 and the fourth electrode group 240.

[0085] It is understood that the electrodes in this embodiment protrude towards the user's facial skin, which not only ensures close contact between the electrodes and the user's skin, but also enhances the transmission efficiency of current or signals.

[0086] It should be noted that the masseter muscle area has a larger size and thickness, while the muscles around the eyes and lips are smaller and more delicate. The electrode contact area of ​​the second electrode group 220 is larger than that of the first electrode group 210, the third electrode group 230, and the fourth electrode group 240. This larger conductive area can cover the entire area, effectively promoting the contraction and relaxation of large muscle groups, thereby achieving a comprehensive lifting and firming effect. For precise care of fine wrinkles in small areas: the muscles around the eyes, nasolabial folds, and corners of the mouth are smaller, and the skin is thinner. The smaller conductive area can concentrate stimulation on the fine muscles in these specific areas, avoiding current dispersion and helping to reduce local fine lines. This precise stimulation helps reduce the formation of crow's feet, nasolabial folds, and corners of the mouth lines.

[0087] According to one embodiment of this application, the first electrode group 210 includes a first positive electrode 211 and a first negative electrode 212. The first positive electrode 211 is disposed on the upper side of the first cover portion 110, and the first negative electrode 212 is disposed on the lower side of the first cover portion 110.

[0088] Understandably, the first positive electrode 211 is positioned on the upper side of the first cover portion 110 (e.g., near the forehead or eyebrow area), while the first negative electrode 212 is positioned on the lower side of the first cover portion 110 (e.g., near the eye bags or outer corners of the eyes). Placing the first positive electrode 211 on the upper side and the first negative electrode 212 on the lower side ensures that current flows from the first positive electrode 211 to the first negative electrode 212, forming a directional current loop. This directional current flow helps concentrate energy, allowing the current to penetrate the skin layer more efficiently and reach deeper tissues.

[0089] According to one embodiment of this application, the second electrode group 220 includes a second positive electrode 221 and a second negative electrode 222. The second positive electrode 221 is disposed on the upper side of the second cover portion 120, and the second negative electrode 222 is disposed on the lower side of the second cover portion 120.

[0090] Understandably, the second positive electrode 221 is located on the upper side of the second cover 120 (e.g., near the cheekbone), while the second negative electrode 222 is located on the lower side of the second cover 120 (e.g., near the lower cheek). This arrangement is designed to cover the masseter muscle area, providing a firming and lifting effect. Placing the second positive electrode 221 on the upper side and the second negative electrode 222 on the lower side ensures that current flows from the second positive electrode 221 to the second negative electrode 222, forming a directional current loop. This directional current flow helps to concentrate energy, allowing the current to penetrate the skin layer more efficiently and reach deeper tissues.

[0091] According to one embodiment of this application, the third electrode group 230 includes a third positive electrode 231 and a third negative electrode 232. The third positive electrode 231 is disposed on the upper side of the third cover portion 130, and the third negative electrode 232 is disposed on the lower side of the third cover portion 130.

[0092] Understandably, the third positive electrode 231 is positioned on the upper side of the third cover 130 (e.g., near the upper part of the nose), while the third negative electrode 232 is positioned on the lower side of the third cover 130 (e.g., near the upper part of the mouth). Placing the third positive electrode 231 on the upper side and the third negative electrode 232 on the lower side ensures that current flows from the third positive electrode 231 to the third negative electrode 232, forming a directional current loop. This directional current flow helps to concentrate energy, allowing the current to penetrate the skin layer more efficiently and reach deeper tissues.

[0093] According to one embodiment of this application, the fourth electrode group 240 includes a fourth positive electrode 241 and a fourth negative electrode 242. The fourth positive electrode 241 is disposed on the upper side of the fourth cover portion 140, and the fourth negative electrode 242 is disposed on the lower side of the fourth cover portion 140.

[0094] Understandably, the fourth positive electrode 241 is located on the upper side of the fourth cover portion 140 (e.g., near the top of the philtrum), while the fourth negative electrode 242 is located on the lower side of the fourth cover portion 140 (e.g., near the bottom of the chin). Placing the fourth positive electrode 241 on the upper side and the fourth negative electrode 242 on the lower side ensures that current flows from the fourth positive electrode 241 to the fourth negative electrode 242, forming a directional current loop. This directional current flow helps to concentrate energy, allowing the current to penetrate the skin layer more efficiently and reach deeper tissues.

[0095] According to one embodiment of this application, the number of the first electrode group 210, the second electrode group 220, the third electrode group 230 and the fourth electrode group 240 are all two groups, and the first electrode group 210, the second electrode group 220, the third electrode group 230 and the fourth electrode group 240 are symmetrically distributed about the virtual midline of the mask body 100.

[0096] The first electrode group 210 includes two electrode pairs, respectively positioned on the left and right sides of the periorbital region of the mask body 100, symmetrically distributed about the virtual philtrum line of the mask body 100. The second electrode group 220 includes two electrode pairs, respectively positioned on the left and right sides of the masseter muscle region of the mask body 100, symmetrically distributed about the virtual philtrum line. The third electrode group 230 includes two electrode pairs, respectively located on the left and right sides of the nasolabial fold region, maintaining symmetry with the virtual philtrum line. The fourth electrode group 240 includes two electrode pairs, respectively positioned on the left and right sides of the periorbital region, also following the principle of symmetry with the virtual philtrum line.

[0097] Understandably, the symmetrical arrangement of the two sets of electrodes about the 100-degree virtual midline of the mask body not only ensures the uniformity of the treatment or cosmetic effect, allowing both sides of the face to receive the treatment, but also improves comfort and safety. By having the electrodes on both sides work simultaneously, facial muscles can be activated more effectively, promoting blood circulation and accelerating the metabolic process, thereby achieving better treatment or cosmetic results.

[0098] According to one embodiment of this 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 the side that fits the user's face. The flexible circuit board 101 is disposed between the inner cover 102 and the outer cover 103. The outer cover 103 is disposed on the side away from the user's face. 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 and abut against the user's face.

[0099] Understandably, the flexible circuit board 101 is located between the inner cover 102 and the outer cover 103, serving to connect the electrode assembly 200 with the power supply and control signals. The flexible circuit board 101 has excellent flexibility and reliability, and can adapt to various bends and deformations of the mask body 100, ensuring that the beauty mask fits the user's face while maintaining a stable connection between the electrode assembly 200 and the power supply.

[0100] The inner cover 102 is located on the side that fits the user's face and is made of a soft, skin-friendly material to ensure user comfort during use. The inner cover 102 has several through holes 104, which are used to allow the electrode assembly 200 to extend and contact the user's face, thereby achieving the treatment effect.

[0101] The outer cover 103 is located on the side away from the user's face and mainly serves to protect the flexible circuit board 101 and the electrode assembly 200. The outer cover 103 is typically made of durable, waterproof materials to ensure the stability and durability of the device.

[0102] The electrode assembly 200 can be fixed to the flexible circuit board 101 by soldering or plugging. Each electrode assembly 200 includes a positive electrode and a negative electrode, which are connected to the power supply and control unit 920 through circuitry on the flexible circuit board 101. During installation, the electrode assemblies 200 are precisely placed at predetermined positions on the flexible circuit board 101 to ensure that they properly extend through the through-hole 104 of the inner cover 102 and abut against the user's face.

[0103] When the device is activated, power is supplied to the electrode assembly 200 via the flexible circuit board 101 in the form of current, radio frequency, ultrasound, or electroporation. This energy is delivered to the user's face through the electrode assembly 200, stimulating skin cells, promoting collagen production, and improving skin elasticity and firmness. Simultaneously, the electrode assembly 200 can also promote facial blood circulation and accelerate the removal of metabolic waste by transmitting electromagnetic waves of specific frequencies, thereby achieving cosmetic or therapeutic effects.

[0104] According to one embodiment of this application, the beauty mask includes a plurality of LED light therapy modules 400 connected to a flexible circuit board 101, and the plurality of LED light therapy modules 400 are distributed at least one of the first cover portion 110, the second cover portion 120, the third cover portion 130 and the fourth cover portion 140.

[0105] Understandably, through the precise layout of the LED light therapy modules 400 and the efficient connection of the flexible circuit board 101, this product can provide users with a comprehensive, uniform, and deep light therapy skincare experience. The LED light therapy modules 400 are connected and distributed in different parts of the mask via the flexible circuit board 101. These modules can emit light of different wavelengths, such as red, blue, and green light, to stimulate skin cells, promote collagen production, and improve blood circulation, thereby achieving the effect of beauty and skincare.

[0106] In one embodiment, the wavelength of light emitted by a portion of the LED phototherapy module 400 is between 500nm and 740nm. In a preferred embodiment, the wavelength of light emitted by the LED phototherapy module 400 is 620nm. In this embodiment, the light emitted by the LED phototherapy module 400 is provided by a light emitter with a power of 15mw-35mw.

[0107] In one embodiment, the wavelength of light emitted by a portion of the LED phototherapy module 400 is between 760nm and 900nm. In a preferred embodiment, the wavelength of light emitted by the LED phototherapy module 400 is 830nm. In this embodiment, the light emitted by the LED phototherapy module 400 is provided by a light emitter with a power of 10mw-25mw.

[0108] In one embodiment, the wavelength of light emitted by a portion of the LED phototherapy module 400 is between 400nm and 520nm. In a preferred embodiment, the wavelength of light emitted by the LED phototherapy module 400 is 460nm. In this embodiment, the light emitted by the LED phototherapy module 400 is provided by a light emitter with a power of 15mw-35mw.

[0109] In order to achieve multiple effects on facial skin or facial muscles, the beauty mask of this application has several programs with multiple functional combinations, including: a first program, a second program, a third program, a fourth program, a fifth program, and a sixth program.

[0110] The first procedure involves a combination of two LED phototherapy modules: one with a wavelength of 500nm-740nm and the other with a wavelength of 760nm-900nm. This combination is used to stimulate the proliferation of collagen and elastin and promote blood circulation.

[0111] The second procedure combines two LED phototherapy modules: one with a wavelength of 400nm-520nm and the other with a wavelength of 760nm-900nm. This combination is used to improve skin repair capabilities, control oil production, cleanse acne, fight acne, and improve acne.

[0112] The third procedure combines two LED phototherapy modules: one with a wavelength of 500nm-740nm and the other with a wavelength of 400nm-520nm. This combination is used to promote and improve blood circulation, tighten the skin, and improve dullness.

[0113] The fourth procedure involves a combination of LED phototherapy modules 400 with wavelengths between 500nm and 740nm, LED phototherapy modules 400 with wavelengths between 760nm and 900nm, and a microcurrent module, used to stimulate the proliferation of collagen and elastin and promote blood circulation.

[0114] The fifth procedure involves a combination of LED phototherapy modules 400 with wavelengths between 400nm and 520nm, LED phototherapy modules 400 with wavelengths between 760nm and 900nm, and a microcurrent module. This combination is used to improve skin repair capabilities, control oil production, cleanse acne, combat acne, and improve acne.

[0115] The sixth procedure involves a combination of LED phototherapy modules 400 with wavelengths between 400nm and 520nm, 500nm and 740nm, and 760nm and 900nm, and a microcurrent module, used to promote and improve blood circulation, tighten the skin, and improve dullness.

[0116] According to one embodiment of this application, the beauty mask includes a microcurrent module connected to a flexible circuit board 101 and connected to at least one of a first electrode group 210, a second electrode group 220, a third electrode group 230, and a fourth electrode group 240.

[0117] Understandably, the microcurrent module can promote subtle contractions of facial muscles, improve facial contours, improve skin laxity, reduce fine lines and wrinkles, increase muscle elasticity and blood circulation, and restore facial vitality.

[0118] According to one embodiment of this application, the beauty mask includes a radio frequency module connected to a flexible circuit board 101 and connected to at least one of a first electrode group, a second electrode group 220, a third electrode group 230, and a fourth electrode group 240.

[0119] Understandably, radio frequency (RF) modules can stimulate collagen regeneration by heating the dermis, thereby achieving skin tightening and lifting. They can reduce deep wrinkles and fine lines, improve skin elasticity, stimulate fat cell metabolism, and help with localized slimming and shaping. RF modules can also be used to help tighten skin, reduce cellulite, and improve body contours.

[0120] According to one embodiment of this application, the beauty mask includes an ultrasound module connected to a flexible circuit board 101, and the ultrasound module is connected to at least one of a first electrode group 210, a second electrode group 220, a third electrode group 230, and a fourth electrode group 240.

[0121] Understandably, the ultrasound module can use high-frequency ultrasonic vibrations to deliver nutrients (such as serums and moisturizers) from skincare products deep into the skin, enhancing their absorption. The ultrasound module can also cleanse pores with ultrasound, helping to remove dirt and residue from the skin's surface, effectively improving problems like blackheads and acne, enhancing skin metabolism, improving skin radiance and softness, and promoting blood circulation.

[0122] According to one embodiment of this application, the beauty mask includes an electropuncture module connected to a flexible circuit board 101. The electropuncture module is connected to at least one of a first electrode group 210, a second electrode group 220, a third electrode group 230, and a fourth electrode group 240.

[0123] Understandably, the electroporation module can open the skin barrier, increase the permeability of active ingredients in skincare products, and make them easier for the skin to absorb. Furthermore, the electroporation module is a non-invasive delivery method, suitable for sensitive skin. The electroporation module can effectively improve the absorption efficiency of serums and anti-aging products, enhancing the skincare effect.

[0124] According to one embodiment of this application, an eye mask component 300 is included, which is connected to a mask body 100 and protrudes from the inner side of the mask body 100 facing the face.

[0125] Understandably, the eye mask component 300 is connected to the mask body 100 and protrudes from the inner side of the mask body 100 facing the face. The eye mask component 300 is made of soft, skin-friendly material, which can closely fit the contour of the eyes and effectively block the therapeutic light of the beauty mask (such as the light from the LED light therapy module 400 mentioned above) from entering the eyes, protecting the user's eyes from light stimulation.

[0126] According to one embodiment of this application, the working time of the physiotherapy module corresponding to the first cover 110 is a first preset duration; the working time of the physiotherapy module corresponding to the second cover 120 is a second preset duration; the working time of the physiotherapy module corresponding to the third cover 130 is a third preset duration; and the working time of the physiotherapy module corresponding to the fourth cover 140 is a fourth preset duration. After the physiotherapy module of each cover (first cover 110, second cover 120, third cover 130 and fourth cover 140) finishes working, a preset interval is elapsed before the physiotherapy module of the next cover begins working.

[0127] The first preset duration can be set according to the characteristics of the skin around the eyes and the treatment needs. After completing the treatment of the first mask 110, a preset interval duration needs to be waited to ensure that the skin around the eyes has enough rest time, while allowing other areas of the face to prepare.

[0128] The second preset duration can be set for specific treatment needs of the masseter muscle area. After completing the second treatment 120, there will also be a preset interval duration to ensure that the masseter muscle area has enough rest time, while allowing other areas of the face to prepare.

[0129] The third preset duration can be set according to the specific treatment needs of the nasolabial fold area. After completing the treatment of the third layer 130, there will also be a preset interval duration to ensure that the nasolabial fold area has enough rest time, while allowing other areas of the face to prepare.

[0130] The fourth preset duration can be set for specific treatment needs in the perioral area. After completing the treatment of the fourth mask 140, there will also be a preset interval duration to ensure that the perioral area has enough rest time, while allowing other areas of the face to prepare.

[0131] In one embodiment, the first preset duration, the second preset duration, the third preset duration, the fourth preset duration, and the preset interval duration are all 2 seconds.

[0132] Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of this utility model, and not to limit it. Although this utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that modifications can still be made to the technical solutions described in the foregoing embodiments, or equivalent substitutions can be made to some of the technical features. Such modifications or substitutions do not cause the essence of the corresponding technical solutions to deviate from the spirit and scope of the technical solutions of the embodiments of this utility model.

Claims

1. A beauty face mask, characterized in that, include: The mask body has a first cover, a second cover, a third cover and a fourth cover connected in sequence. The first cover corresponds to the periorbital area of ​​the face, the second cover corresponds to the masseter muscle area of ​​the face, the third cover corresponds to the nasolabial fold area, and the fourth cover corresponds to the periorbital area. An electrode assembly includes several sub-assemblies, each sub-assembly including at least one pair of electrodes with opposite polarities. The sub-assemblies include a first electrode assembly, a second electrode assembly, a third electrode assembly, and a fourth electrode assembly. The first electrode assembly is located in the first cover portion, the second electrode assembly is located in the second cover portion, the third electrode assembly is located in the third cover portion, and the fourth electrode assembly is located in the fourth cover portion.

2. The beauty mask according to claim 1, characterized in that, When one of the first electrode group, the second electrode group, the third electrode group, and the fourth electrode group is in contact with the face and conducts electricity, the other electrode groups are not conducting electricity.

3. The beauty mask according to claim 2, characterized in that, The first electrode group, the second electrode group, the third electrode group and the fourth electrode group are sequentially energized to form a massage electron flow.

4. The beauty mask according to claim 1, characterized in that, The electrodes of the electrode group protrude from the inner side of the mask body facing the face, and the electrode contact area of ​​the second electrode group is larger than that of the first electrode group, the third electrode group and the fourth electrode group.

5. The beauty mask according to any one of claims 1 to 4, characterized in that, The first electrode group includes a first positive electrode and a first negative electrode, the first positive electrode being disposed on the upper side of the first cover and the first negative electrode being disposed on the lower side of the first cover; And / or, The second electrode group includes a second positive electrode and a second negative electrode. The second positive electrode is disposed on the upper side of the second cover, and the second negative electrode is disposed on the lower side of the second cover. And / or, The third electrode group includes a third positive electrode and a third negative electrode. The third positive electrode is disposed on the upper side of the third cover, and the third negative electrode is disposed on the lower side of the third cover. And / or, The fourth electrode group includes a fourth positive electrode and a fourth negative electrode. The fourth positive electrode is disposed on the upper side of the fourth cover, and the fourth negative electrode is disposed on the lower side of the fourth cover.

6. The beauty mask according to any one of claims 1 to 4, characterized in that, The first electrode group, the second electrode group, the third electrode group, and the fourth electrode group are each in pairs, and the first electrode group, the second electrode group, the third electrode group, and the fourth electrode group are symmetrically distributed about the virtual midline of the mask body.

7. The beauty mask according to any one of claims 1 to 4, characterized in that, The main body of the mask includes a flexible circuit board, an inner cover, and an outer cover. The inner cover is located on the side that fits the user's face. The flexible circuit board is located between the inner cover and the outer cover. The outer cover is located on the side away from the user's face. The electrode assembly is mounted on the flexible circuit board. The inner cover has several through holes, and the electrodes extend out of the through holes and abut against the user's face.

8. The beauty mask according to claim 7, characterized in that, It includes a plurality of LED light therapy modules, which are connected to the flexible circuit board, and the plurality of LED light therapy modules are distributed at least one of the first cover, the second cover, the third cover and the fourth cover.

9. The beauty mask according to claim 7, characterized in that, It includes a microcurrent module connected to the flexible circuit board, and the microcurrent module is connected to at least one of the first electrode group, the second electrode group, the third electrode group, and the fourth electrode group; And / or, It includes a radio frequency module connected to the flexible circuit board, and the radio frequency module is connected to at least one of the first electrode group, the second electrode group, the third electrode group, and the fourth electrode group; And / or, It includes an ultrasound module connected to the flexible circuit board, and the ultrasound module is connected to at least one of the first electrode group, the second electrode group, the third electrode group, and the fourth electrode group; And / or, It includes an electropuncture module connected to the flexible circuit board, and the electropuncture module is connected to at least one of the first electrode group, the second electrode group, the third electrode group, and the fourth electrode group.

10. The beauty mask according to any one of claims 1 to 4, characterized in that, The device includes an eye mask component connected to the mask body, and the eye mask component protrudes from the inner side of the mask body facing the face.

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