A wearable flexible electronic mask for cosmetic penetration enhancement

By designing an outer protective mask layer that fits the face and an ear-shaped fitting component, combined with a flexible inner fitting layer and sheet-like electrode components, the problem of poor electrode fit was solved, improving the efficiency of electroporation and drug penetration, and enhancing the aesthetics and safety of the mask.

CN224484719UActive Publication Date: 2026-07-14ATLAS (HANGZHOU) NEW MATERIALS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ATLAS (HANGZHOU) NEW MATERIALS CO LTD
Filing Date
2025-07-28
Publication Date
2026-07-14

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    Figure CN224484719U_ABST
Patent Text Reader

Abstract

The utility model relates to the technical field of beauty care, specifically disclose a kind of beauty penetration wearing flexible electronic mask, comprising: outer layer protective mask layer, it is the mask main body of sticking to human face profile, the outer layer protective mask layer two sides respectively have 1 ear lobe component, and outer layer protective mask layer and ear lobe component jointly constitute the main body of wearing flexible electronic mask. The beauty penetration wearing flexible electronic mask, since outer layer protective mask layer uses the design of sticking to human face profile, two sides' ear lobe component is elastic arc structure and with outer layer protective mask layer all uses silica gel material, can adapt to different ear profile and provide stable tension, cooperate inner layer, and the inner layer face sticking layer of using flexible and having adhesive material, can be closely attached to facial skin, simultaneously, electrode assembly one and electrode assembly two are set to sheet structure, increase the contact area with skin, improve electroporation effect and drug penetration efficiency.
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Description

Technical Field

[0001] This utility model relates to the field of beauty and skin care technology, specifically to a wearable flexible electronic facial mask for beauty and skin penetration enhancement. Background Technology

[0002] In the field of beauty and skincare, transdermal drug delivery systems are gaining increasing attention as an effective method of drug absorption. Currently, there are various strategies to accelerate transdermal drug delivery, such as chemical enhancement, iontophoresis, ultrasound-enhanced penetration, and microneedling. Among these, ultrasound-enhanced penetration utilizes the physical effects of ultrasound to facilitate drug delivery to the skin, increasing skin permeability over a wide molecular weight range. It is also non-irritating and non-toxic to cells and causes no severe skin pain. While microneedling can deliver large molecules, it is physically invasive and poses safety and sterility risks. Compared to these methods, electroporation has significant advantages in promoting the delivery of large drug molecules, non-corrosive electrode sites, low equipment manufacturing costs, and non-invasiveness, making it an important means to improve drug penetration efficiency. In recent years, with the rapid development of flexible electronics technology, wearable flexible electronic devices have shown great application potential in fields such as healthcare due to their ability to maintain stable electrical performance under bending and twisting conditions.

[0003] Existing wearable flexible electronic masks require electrodes to adhere to the skin during use. However, due to the large and complex curved surface of the human face, perfect conformal adhesion to the face is lacking, resulting in poor contact between the electrodes and the skin. This seriously affects the electroporation effect and drug penetration efficiency. Furthermore, because the silicone layer is too thin, the circuit is confined within a smooth surface, resulting in an uneven and unattractive geometric shape of the encapsulated mask. Utility Model Content

[0004] The purpose of this invention is to provide a wearable flexible electronic facial mask for cosmetic purposes, in order to solve the problems mentioned in the background art. In the process of using existing wearable flexible electronic facial masks, the electrodes need to be attached to the skin. However, due to the large area and complex curvature of the human face, perfect conformal fitting to the face is not possible, resulting in poor contact between the electrodes and the skin, which seriously affects the electroporation effect and drug penetration efficiency. Furthermore, due to the excessively thin silicone layer, the circuit is confined within a smooth surface, resulting in an uneven and unattractive geometric shape of the encapsulated mask.

[0005] To achieve the above objectives, this utility model provides the following technical solution: a wearable flexible electronic facial mask for beauty and skin penetration enhancement, comprising an outer protective mask layer, which is a mask body conforming to the contours of the human face, and an ear-fitting component on each side of the outer protective mask layer, and the outer protective mask layer and the ear-fitting component together constitute the main body of the wearable flexible electronic facial mask;

[0006] The outer protective mask layer is covered with an inner surface adhesive layer, which is made of a flexible and adhesive material. The inner surface adhesive layer is also covered with a drug-penetrating mask layer near the skin surface. The outer protective mask layer is penetrated by a connector, which is electrically connected to an external wire and to an external control element.

[0007] The inner surface of the bonding layer is provided with a connecting conductor, and the connecting conductor is close to the outer protective film layer. The connecting conductor is connected to electrode assembly one and electrode assembly two through a flexible conductive line, and both electrode assembly one and electrode assembly two are sheet-like structures.

[0008] Using the above technical solution, the outer protective film layer and the ear fitting component constitute the main structure adapted to the face. The flexible adhesive material of the inner surface fitting layer ensures the fit. Connecting plugs, external wires and external control components realize stable transmission of electrical signals. Connecting conductive parts and flexible conductive lines connect to the electrode assembly. Sheet electrodes increase the contact area, thus solving the problem of poor fit as a whole and improving the electroporation and permeation promotion effects.

[0009] Preferably, the outer protective film layer has grooves on its surface, and the grooves of the outer protective film layer are matched with the shape of the inner surface adhesive layer, and the outer protective film layer has uniformly opened holes.

[0010] By adopting the above technical solution, the grooves of the outer protective film layer fit together with the inner surface bonding layer, thereby enhancing structural stability.

[0011] Preferably, the main body of the auricle fitting component is an elastic arc-shaped structure, and both the auricle fitting component and the outer protective film layer are made of silicone material.

[0012] Using the above technical solution, the elastic arc structure of the auricle fitting component adapts to different ear sizes, and the silicone material ensures flexibility and durability. It is consistent with the material of the outer protective film layer, improving overall fit and wearing stability.

[0013] Preferably, the connecting conductor and the connecting plug are spliced ​​and connected, and a sealing element is provided at the connection between the connecting conductor and the connecting plug.

[0014] Using the above technical solution, the connecting conductive parts and connecting plugs are easy to install and disassemble, and the sealing parts ensure the connection is sealed to prevent moisture and other factors from affecting the circuit.

[0015] Preferably, the first electrode assembly is located near the upper part of the inner surface bonding layer, and there are two second electrode assemblies on each side below the lower part of the inner surface bonding layer.

[0016] Using the above technical solution, the positions of electrode components one and two are adapted to the facial contours, and multiple electrode components cover more areas, improving the uniformity of electroporation and enhancing the permeation effect.

[0017] Preferably, the external conductor is a flexible conductor with a waterproof insulating layer wrapped around its outer surface, and waterproof connectors are provided at the connection points between the external conductor and the connector plug and the external control element.

[0018] By adopting the above technical solution, the flexible and waterproof insulation layer design of the external wires can adapt to the bending of the membrane, and the waterproof connectors prevent water from entering the connection points, ensuring safe use and extending the equipment life.

[0019] Preferably, the external control element includes a housing and a control circuit disposed inside the housing, and the housing is provided with operation buttons and a display screen, and the control circuit in the external control element is electrically connected to the connector plug through an external wire.

[0020] By adopting the above technical solution, the outer casing of the external control element protects the internal circuit, and the operation buttons and display screen facilitate parameter adjustment and status monitoring.

[0021] Compared with existing technologies, the beneficial effects of this utility model are: This wearable flexible electronic facial mask for beauty and skin penetration enhancement:

[0022] 1. Because the outer protective mask layer is designed to fit the contours of the human face, the ear fitting components on both sides are elastic arc-shaped structures and are made of silicone material, which can adapt to different ear contours and provide stable tension. Combined with the inner surface fitting layer made of flexible and adhesive material, it can fit tightly to the facial skin. At the same time, electrode component one and electrode component two are designed as sheet structures to increase the contact area with the skin. The separate layout of electrode component one and electrode component two can adapt to complex facial curves, effectively avoiding the problem of poor electrode-skin contact caused by poor fit, and improving the electroporation effect and drug penetration efficiency.

[0023] 2. The grooves on the surface of the outer protective film layer match the shape of the inner surface bonding layer, enhancing the connection stability of the two layers and preventing the circuit from being exposed or shifted due to improper encapsulation. Since the outer protective film layer itself has a certain thickness, it can stably confine circuit components such as connecting conductive parts and flexible conductive lines inside. In addition, the connecting conductive parts and connecting plugs are spliced ​​and connected with a seal at the connection point. The outer surface of the external wire is wrapped with a waterproof insulation layer and the connection part is equipped with a waterproof connector, which further improves the sealing and integrity of the encapsulation and ensures the overall quality and safety of the mask.

[0024] 3. The evenly spaced pores in the outer protective mask layer provide excellent breathability, preventing skin discomfort caused by prolonged closure. The adhesive properties of the inner surface layer not only ensure continuous contact between the electrodes and the skin but also allow the drug-penetrating mask layer to contact the facial skin. Combined with the electroporation effect, this promotes efficient ingredient penetration. In the three-layer structure, the drug-penetrating mask closest to the skin surface adheres to the medication, while the outer protective mask layer effectively prevents the medication from evaporating too quickly, resulting in a mask with excellent fit and aesthetics. Attached Figure Description

[0025] Figure 1 This is a three-dimensional structural diagram of the overall installation state of this utility model;

[0026] Figure 2 This is a three-dimensional structural diagram of the present invention in its overall disassembled state;

[0027] Figure 3 This is a three-dimensional structural diagram of the inner surface bonding layer and connecting plug of this utility model.

[0028] Figure 4 This is a schematic diagram of the overall internal side section of the present invention.

[0029] Figure 5 This is a three-dimensional structural diagram of the installation of the outer protective film layer and the inner surface bonding layer of this utility model.

[0030] Figure 6 This is a schematic diagram of the surface element structure of the inner surface bonding layer of this utility model.

[0031] In the diagram: 1. Outer protective mask layer; 2. Auricle fitting component; 3. Inner surface fitting layer; 4. Connecting conductive component; 5. Electrode assembly one; 6. Flexible conductive wire; 7. Electrode assembly two; 8. Connecting plug; 9. External wire; 10. External control element; 11. Drug penetration mask layer. Detailed Implementation

[0032] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0033] Please see Figures 1-6This utility model provides a technical solution: a wearable flexible electronic facial mask for beauty and penetration enhancement, including an outer protective mask layer 1, an auricle fitting component 2, an inner surface fitting layer 3, a connecting conductive component 4, an electrode assembly 1 5, a flexible conductive wire 6, an electrode assembly 2 7, a connecting plug 8, an external wire 9, an external control element 10, and a drug penetration mask layer 11.

[0034] Among them, the outer protective mask layer 1 is the main body of the mask that conforms to the contour of the human face. There is an ear-attaching component 2 on each side of the outer protective mask layer 1. The outer protective mask layer 1 and the ear-attaching component 2 together constitute the main body of the wearable flexible electronic mask.

[0035] The outer protective mask layer 1 is covered by an inner surface adhesive layer 3, which is made of a flexible and adhesive material. A drug-penetrating mask layer 11 is attached to the inner surface of the inner surface adhesive layer 3 close to the skin. The outer protective mask layer 1 is penetrated by a connector 8, which is electrically connected to an external wire 9, which is also electrically connected to an external control element 10. The external wire 9 is a flexible wire with a waterproof insulating layer on its outer surface. Waterproof connectors are provided at the connection points between the external wire 9 and the connector 8 and the external control element 10. The head, the external control element 10 includes an outer shell and a control circuit disposed inside the outer shell. The outer shell is provided with operation buttons and a display screen. The control circuit in the external control element 10 is electrically connected to the connector plug 8 through an external wire 9. The outer protective film layer 1 has grooves on its surface, and the grooves of the outer protective film layer 1 fit the shape of the inner surface adhesive layer 3. Holes are evenly opened in the outer protective film layer 1. The main body of the ear auricle fitting component 2 is an elastic arc structure. Both the ear auricle fitting component 2 and the outer protective film layer 1 are made of silicone material.

[0036] Referring to the attached diagrams in the instruction manual Figures 1-6 As shown, take out the main body of the wearable flexible electronic facial mask for beauty penetration enhancement, and install the outer protective mask layer 1, the auricle fitting component 2, and the inner facial fitting layer 3 in sequence. With the drug-penetrating mask layer 11 on the surface of the inner facial fitting layer 3 facing the facial skin, pick up the main body of the mask and attach the auricle fitting components 2 on both sides to the auricles of the user's left and right ears respectively. Since the drug-penetrating mask layer 11 with the drug on the surface is adhesive to the facial skin, and the auricle fitting component 2 is an elastic arc structure that can adapt to the ear contour, further adjust the position of the mask so that the outer protective mask layer 1 fits the facial contour, and the inner facial fitting layer 3 is in close contact with the skin by its own adhesiveness, ensuring that the electrode component 1 5 and the electrode component 2 7 are in full contact with the skin. Securely insert the inspection connector 8 through the outer protective mask layer 1 and connect it to the connecting conductor 4. Then connect one end of the external wire 9 to the connector 8 and the other end to the external control element 10 to complete the circuit connection.

[0037] The inner surface of the bonding layer 3 is provided with a connecting conductor 4, and the connecting conductor 4 is close to the outer protective film layer 1. The connecting conductor 4 is spliced ​​and connected to the connecting plug 8, and a sealing element is provided at the connection between the connecting conductor 4 and the connecting plug 8. The connecting conductor 4 is connected to the electrode assembly 1 5 and the electrode assembly 2 7 through a flexible conductive line 6. The electrode assembly 1 5 and the electrode assembly 2 7 are both sheet-like structures. The electrode assembly 1 5 is close to the upper part of the inner surface bonding layer 3, and there are two electrode assemblies 2 7 on each side below the inner surface bonding layer 3.

[0038] Referring to the attached diagrams in the instruction manual Figures 1-6 As shown, the external control element 10 is activated, and the electroporation parameters are set through its operation button. After confirming that the parameters are correct, the electroporation function is activated. The control circuit in the external control element 10 converts the command into a specific electrical signal, which is transmitted to the connector 8 through the external wire 9. The electrical signal is transmitted to the connecting conductor 4 on the surface of the inner surface bonding layer 3 through the connecting conductor 8. After receiving the signal, the connecting conductor 4 transmits it to the electrode assembly 1 5 and the electrode assembly 2 7 through the flexible conductor 6 respectively.

[0039] Electrode assembly 5 and electrode assembly 7 generate an electroporation effect under the action of electrical signals. Through brief high-voltage pulses, temporary micropores are formed in the stratum corneum of the skin, reducing the skin barrier function. The beauty gel on the inner surface adhering layer 3 can quickly penetrate into the deep layers of the skin through these micropores. At the same time, the adhesiveness of the inner surface adhering layer 3 ensures that the electrodes are in continuous contact with the skin, ensuring the penetration-promoting effect.

[0040] During use, the pores on the surface of the outer protective mask layer 1 allow for ventilation, preventing skin discomfort caused by the sealed environment. The grooves on the outer protective mask layer 1 fit the shape of the inner surface adhesive layer 3, ensuring the stability of the overall structure. During use, the working status, including remaining time and electrical signal parameters, can be monitored in real time through the display screen of the external control element 10.

[0041] After the mask reaches the set time, the external control element 10 will automatically stop working, or you can manually turn off the device. First, disconnect the external wire 9 from the connector plug 8 and the external control element 10, then remove the ear-fitting part 2 and remove the mask from your face to complete the use.

[0042] Working principle: When using this wearable flexible electronic facial mask for beauty penetration enhancement, the ear-fitting component 2 is close to the user's ear. Due to the adhesive properties of the drug-penetrating mask layer 11 with the medicated solution on the surface, it adheres to the facial skin. In addition, its elastic arc structure adapts to the ear contour. Combined with the fit design of the outer protective mask layer 1 to the facial contour, the inner surface adhesive layer 3 is in close contact with the skin.

[0043] The external control element 10 establishes an electrical connection with the connector 8 via the external wire 9, allowing the user to set electroporation parameters through the operation buttons of the external control element 10. The control circuit converts the commands into specific electrical signals, which are transmitted to the connector 8 via the external wire 9. Since the connector 8 penetrates the outer protective film layer 1, the electrical signal can be smoothly transmitted to the connecting conductor 4 on the surface of the inner surface adhesive layer 3. After receiving the electrical signal, the connecting conductor 4 transmits the signal to electrode assembly 5 and electrode assembly 7 respectively via flexible conductive lines 6. The sheet-like structure of electrode assembly 5 and electrode assembly 7 increases the contact area with the skin, generating an electroporation effect under the action of the electrical signal. That is, temporary micropores are formed in the stratum corneum of the skin through brief high-voltage pulses, reducing the skin barrier function.

[0044] Meanwhile, the inner surface adhesive layer 3 not only ensures continuous contact between the electrode and the skin through its adhesive properties, but also covers the facial skin with the drug-penetrating mask layer 11 on the surface. It can quickly penetrate to the deep layers of the skin through the micropores formed by electroporation. The groove of the outer protective mask layer 1 matches the shape of the inner surface adhesive layer 3, which enhances the stability of the overall structure. The pores on the surface of the outer protective mask layer 1 play a role in breathability, avoiding discomfort to the skin due to airtightness.

[0045] Through the synergistic effect of various components, the beauty ingredients are effectively penetrated. At the same time, the working status can be monitored in real time through the display screen of the external control element 10, ensuring that the whole process is safe and controllable, and increasing the overall practicality.

[0046] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A wearable flexible electronic facial mask for cosmetic purposes, comprising: The outer protective mask layer (1) is a mask body that conforms to the contour of the human face. There is an ear fitting component (2) on each side of the outer protective mask layer (1). The outer protective mask layer (1) and the ear fitting component (2) together constitute the main body of the wearable flexible electronic mask. The outer protective film layer (1) is covered with an inner surface adhesive layer (3), and the inner surface adhesive layer (3) is made of a flexible and adhesive material. The outer protective film layer (1) is penetrated by a connecting plug (8), and the connecting plug (8) is electrically connected to an external wire (9), and the external wire (9) is electrically connected to an external control element (10). The inner surface bonding layer (3) is provided with a connecting conductor (4), and the connecting conductor (4) is close to the outer protective film layer (1). The connecting conductor (4) is connected to electrode assembly one (5) and electrode assembly two (7) through flexible conductive lines (6), and both electrode assembly one (5) and electrode assembly two (7) are sheet-like structures.

2. The wearable flexible electronic facial mask for cosmetic penetration enhancement according to claim 1, characterized in that: The outer protective film layer (1) has grooves on its surface, and the grooves of the outer protective film layer (1) are in shape to match the inner surface adhesive layer (3), and the outer protective film layer (1) has holes evenly distributed inside.

3. The wearable flexible electronic facial mask for cosmetic penetration enhancement according to claim 1, characterized in that: The main body of the auricle fitting component (2) is an elastic arc-shaped structure, and both the auricle fitting component (2) and the outer protective film layer (1) are made of silicone material.

4. The wearable flexible electronic facial mask for cosmetic penetration enhancement according to claim 1, characterized in that: The connecting conductor (4) is inserted and connected to the connecting plug (8), and a sealing element is provided at the connection between the connecting conductor (4) and the connecting plug (8).

5. The wearable flexible electronic facial mask for cosmetic penetration enhancement according to claim 1, characterized in that: The electrode assembly one (5) is located above the inner surface adhesive layer (3), and there are two electrode assemblies two (7) on each side below the inner surface adhesive layer (3).

6. The wearable flexible electronic facial mask for cosmetic penetration enhancement according to claim 1, characterized in that: The external conductor (9) is a flexible conductor with a waterproof insulation layer wrapped around its outer surface. The connection points between the external conductor (9) and the connector (8) and the external control element (10) are all equipped with waterproof connectors.

7. The wearable flexible electronic facial mask for cosmetic penetration enhancement according to claim 1, characterized in that: The external control element (10) includes a housing and a control circuit disposed inside the housing. The housing is provided with operation buttons and a display screen. The control circuit in the external control element (10) is electrically connected to the connector (8) through an external wire (9).